engine.py 67.7 KB
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# Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

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import os
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import logging
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import random
import numpy as np
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from collections import defaultdict

import paddle
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import paddle.utils as utils
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from paddle import fluid, static
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from paddle.metric import Metric
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from paddle.static import InputSpec
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from paddle.fluid import core
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from paddle.fluid import Variable
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from paddle.fluid.layers.utils import flatten
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from paddle.fluid.executor import global_scope, _to_name_str
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from paddle.fluid.framework import Operator, _non_static_mode
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from paddle.fluid.framework import _current_expected_place as _get_device
from paddle.fluid.dygraph.parallel import ParallelEnv
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from paddle.distributed import fleet
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from .callbacks import config_callbacks
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from .converter import Converter
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from .helper import ProgramHelper
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from .cluster import Cluster, get_default_cluster
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from .planner_v2 import Planner
from .parallelizer_v2 import Parallelizer
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from .dist_op import DistributedOperator
from .dist_saver import DistributedSaver
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from .dist_loader import DistributedDataLoaderFromGenerator, DistributedDataLoader
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from .utils import to_list, get_dist_attr, get_lr
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from .process_group import new_process_group, get_all_process_groups
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from .dist_context import DistributedContext, get_default_distributed_context
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from .strategy import Strategy
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from .interface import CollectionNames, get_collection
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from ..utils.log_utils import get_logger
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from .utils import initialize_pg_in_full_mode
from .cost.estimate_cost import get_cost_from_engine
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class Engine:
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    """
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    An Engine object can provide the full power of auto parallel to users.
    With the help of it, users can easily obtain the abilities of the
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    distributed training and inference. It also support the dynamic graph and
    static graph at the same time.

    Args:
        model (paddle.nn.Layer, optional): The model is an instance of
            paddle.nn.Layer.
        loss (Loss|Callable|None, optional): The loss can be a `paddle.nn.Layer`
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            instance or any callable function taken the predicted values and
            ground truth values as input. It can be None when there is no loss.
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            Default: None.
        optimizer (Optimizer|None, optional): The optimizer need to be set in training
            and should be None in eval and predict mode. 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.
        cluster (Cluster|None, optional): The cluster represents the topology information
            about the used physical devices. Default: None. (Unused for now)
        strategy (Strategy|None, optional): The strategy is used to configure the
        parallelization and optimization behaviors. Default: None.

    Examples:

        .. code-block:: python

            import paddle
            import paddle.vision.transforms as T
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            from paddle.distributed.fleet import auto
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            from paddle.vision.datasets import MNIST

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

            model = paddle.vision.models.LeNet()
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            loss = paddle.nn.CrossEntropyLoss()
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            optimizer = paddle.optimizer.Adam(
                learning_rate=0.001, parameters=model.parameters())
            metrics = paddle.metric.Accuracy(topk=(1, 2))

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            engine = auto.Engine(model, loss, optimizer, metrics)
            # fit
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            engine.fit(train_dataset,
                       epochs=2,
                       batch_size=64)
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            # evaluate
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            engine.evaluate(valid_dataset,
                            batch_size=64)
            # predict
            engine.predict(valid_dataset,
                           batch_size=64)
            # save
            engine.save("./my_model")
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            # load
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            engine.load("./my_model")

    """
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    def __init__(self,
                 model=None,
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                 loss=None,
                 optimizer=None,
                 metrics=None,
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                 cluster=None,
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                 strategy=None):

        if model and not isinstance(model,
                                    paddle.nn.Layer) and not callable(model):
            raise TypeError(
                "'model must be sub classes of `paddle.nn.Layer` or any callable function."
            )
        self._model = model
        self._loss = loss

        if optimizer and not isinstance(
                optimizer,
            (paddle.optimizer.Optimizer, paddle.fluid.optimizer.Optimizer)):
            raise TypeError(
                "'optimizer' must be object of class `paddle.optimizer.Optimizer`"
                " or `paddle.fluid.optimizer.Optimizer`.")
        self._optimizer = self._validate_opt(optimizer)

        metrics = metrics or []
        for metric in to_list(metrics):
            assert isinstance(metric, Metric), \
                "{} is not sub class of Metric".format(
                    metric.__class__.__name__)
        self._metrics = to_list(metrics)

        if cluster and not isinstance(cluster, Cluster):
            raise TypeError(
                "'cluster' must be the object or class `paddle.distributed.auto_parallel.Cluster`"
            )
        self._cluster = cluster or get_default_cluster()

        if strategy and not isinstance(strategy, Strategy):
            raise TypeError(
                "'strategy' must be object of class `paddle.distributed.auto_parallel.Strategy`"
            )
        self._strategy = strategy or Strategy()

        if os.getenv("POD_NAME"):
            print("Distribute training by paddle.distributed.launch",
                  flush=True)
            fleet.init(is_collective=True)
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        self._executor = None
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        self._cur_rank = paddle.distributed.get_rank()
        self._nranks = paddle.distributed.get_world_size()
        self._saver = DistributedSaver()
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        self._logger = get_logger(logging.INFO)
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        self._orig_main_prog = static.default_main_program()
        self._orig_startup_prog = static.default_startup_program()
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        self._orig_dist_context = get_default_distributed_context()
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        self._dist_contexts = {}
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        self._serial_main_progs = {}
        self._serial_startup_progs = {}
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        self._dist_main_progs = defaultdict(dict)  # dist main programs
        self._dist_startup_progs = defaultdict(dict)  # dist startup programs
        self._feed_vars = {}
        self._fetch_vars = {}
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        self._planners = {}
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        self._has_prepared = {"train": False, "eval": False, "predict": False}
        self._has_prepared_reader = {
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            "train": False,
            "eval": False,
            "predict": False
        }
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        self._inputs_spec = []
        self._labels_spec = []
        self._inputs = []
        self._labels = []
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        self._skip_build = False
        self._outside_dataloader = False
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        self._planned_mode = None
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        self._dygraph_mode = False
        self._tuning = self._strategy.tuning
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        self._losses = None
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        self.history = None

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    def _prepare_data_spec(self, data, split, batch_size):
        inputs_spec = []
        labels_spec = []
        if isinstance(data, paddle.io.IterableDataset):
            if split is None:
                inputs, labels = next(iter(data))
            else:
                sample = next(iter(data))
                inputs = sample[:split]
                labels = sample[split:]
        elif isinstance(data, paddle.io.Dataset):
            if split is None:
                inputs, labels = data[0]
            else:
                sample = data[0]
                inputs = sample[:split]
                labels = sample[split:]
        else:
            raise ValueError(
                "Data should be a Dataset or IterableDatset, but received {}.".
                format(type(data).__name__))
        inputs = to_list(inputs)
        labels = to_list(labels)

        num_shards = self._strategy.dataset.num_shards
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        def _adjust_item_spec(num_shards, spec):
            if num_shards > 1 and len(spec.shape) > 1:
                spec.shape[0] = spec.shape[0] * num_shards

        def _infer_item_spec(item, name, batch_size, specs):
            if isinstance(item, np.ndarray):
                spec = InputSpec.from_numpy(item, name)
                if batch_size is None:
                    _adjust_item_spec(num_shards, spec)
                    specs.append(spec)
                else:
                    specs.append(spec.batch(batch_size))
            elif isinstance(item, (Variable, core.VarBase, core.eager.Tensor)):
                _adjust_item_spec(num_shards, spec)
                spec = InputSpec.from_tensor(item, name)
                if batch_size is None:
                    specs.append(spec)
                else:
                    specs.append(spec.batch(batch_size))
            else:
                specs.append(InputSpec([batch_size], type(item), name))

        if inputs is not None:
            for i, item in enumerate(inputs):
                assert item is not None, "Receive None input."
                name = "input" + str(i)
                _infer_item_spec(item, name, batch_size, inputs_spec)
        if labels is not None:
            for i, item in enumerate(labels):
                assert item is not None, "Receive None input."
                name = "label" + str(i)
                _infer_item_spec(item, name, batch_size, labels_spec)

        inputs_spec = self._validate_spec(inputs_spec)
        labels_spec = self._validate_spec(labels_spec)
        return inputs_spec, labels_spec

    def _prepare_data_tensor(self,
                             inputs_spec,
                             labels_spec,
                             inputs=None,
                             labels=None):
        if _non_static_mode() or self._dygraph_mode:
            return None, None
        inputs_spec = inputs_spec if inputs_spec else []
        labels_spec = labels_spec if labels_spec else []
        if inputs_spec:
            assert isinstance(inputs_spec, list), \
                "inputs should be list, but received {}".format(type(inputs_spec))
            if inputs is None:
                inputs = [s._create_feed_layer() for s in inputs_spec]
            else:
                assert isinstance(inputs, list), \
                    "inputs should be list, but received {}".format(type(inputs))
                for input_spec, input in zip(inputs_spec, inputs):
                    if input_spec.shape != input.shape:
                        input.desc.set_shape(input_spec.shape)
        if labels_spec:
            assert isinstance(labels_spec, list), \
                "labels should be list, but received {}".format(type(labels_spec))
            if labels is None:
                labels = [s._create_feed_layer() for s in labels_spec]
            else:
                assert isinstance(labels, list), \
                    "labels should be list, but received {}".format(type(labels))
                for label_spec, label in zip(labels_spec, labels):
                    if label_spec.shape != label.shape:
                        label.desc.set_shape(label_spec.shape)
        return inputs, labels

    def _prepare_reader(self):
        dist_main_prog = self._dist_main_progs[self._mode][self._cur_rank]
        dist_context = self._dist_contexts[self._mode]
        dist_main_block = dist_main_prog.global_block()

        # NOTE: this list may be changed if Paddle changes the existing rules.
        related_reader_ops = [
            "create_py_reader", "create_double_buffer_reader", "read"
        ]
        # remove the first three ops if multiple run fit/evaluate/predict
        if dist_main_block.ops[0].type == 'create_py_reader':
            for i in range(len(related_reader_ops)):
                if dist_main_block.ops[0].type in related_reader_ops:
                    dist_main_block._remove_op(0, sync=False)
        dist_main_block._sync_with_cpp()
        # Step 1: find the reader ops
        reader_op_indices = []
        for idx, op in enumerate(dist_main_block.ops):
            if op.type in related_reader_ops:
                reader_op_indices.append(idx)
        # Step 2: insert the new reader ops to cpp
        new_reader_ops = []
        for idx in reversed(reader_op_indices):
            new_op_desc = dist_main_block.desc._prepend_op()
            new_op_desc.copy_from(dist_main_block.ops[idx].desc)
            new_op = Operator(dist_main_block,
                              new_op_desc,
                              type=new_op_desc.type())
            new_reader_ops.append(new_op)
            dist_op = DistributedOperator(new_op)
            dist_context.add_dist_op_for_program(dist_op)
        # Step 3: insert the new reader ops to python
        for new_op in new_reader_ops:
            dist_main_block.ops.insert(0, new_op)
        for i in range(len(reader_op_indices)):
            reader_op_indices[i] += len(reader_op_indices)
        # Step 4: remove the old reader ops from python and cpp
        for idx in reversed(reader_op_indices):
            op = dist_main_block.ops.pop(idx)
            dist_main_block.desc._remove_op(idx, idx + 1)
        dist_main_block._sync_with_cpp()
        self._has_prepared_reader[self._mode] = True

    def _prepare_feed(self, data, user_feeds, mode):
        feeds = {}
        if data is not None:
            if isinstance(data, (list, tuple)):
                if len(data) == 1 and isinstance(data[0], dict):
                    for name, data in data[0].items():
                        feeds[name] = data
                else:
                    raise ValueError("Unsupported data {}".format(data))
            elif isinstance(data, dict):
                for name, data in data.items():
                    feeds[name] = data
            else:
                raise ValueError("Unsupported data {}".format(data))
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        if user_feeds is not None:
            assert isinstance(user_feeds, dict), \
                "user_feeds must be a dict, but receive {}".format(type(user_feeds).__name__)
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            for name, data in user_feeds.items():
                feeds[name] = data
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        return feeds

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    def _prepare_fetch(self, user_fetches, mode):
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        if user_fetches is not None:
            assert isinstance(user_fetches, list), \
                "user_fetches must be a list, but receive {}".format(type(user_fetches).__name__)
        fetch_names = []
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        fetch_indices = []
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        def _process_fetch_group(group_name, var_list):
            group_indices = []
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            for var in var_list:
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                # Remove duplicate var_names
                if self._is_local_var(var):
                    var_name = _to_name_str(var)
                    if var_name not in fetch_names:
                        fetch_names.append(var_name)
                    group_indices.append(fetch_names.index(var_name))
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            if not group_indices:
                fetch_names.append([])
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            fetch_indices.append(group_indices)

        if mode != "predict":
            _process_fetch_group("loss", self._fetch_vars[mode]["loss"])
        if mode != "predict":
            metrics = self._fetch_vars[mode]["metrics"]
            for i, var_list in enumerate(metrics):
                _process_fetch_group("metrics_" + str(i), var_list)
        if mode == "predict":
            _process_fetch_group("outputs", self._fetch_vars[mode]["outputs"])
        user_fetches_collection = [
            item[1] for item in get_collection(CollectionNames.FETCHES)
        ]
        var_list = (user_fetches_collection or []) + (user_fetches or [])
        _process_fetch_group("fetches", var_list)
        return fetch_names, fetch_indices

    def _prepare_logger(self,
                        outs,
                        epoch=None,
                        step=None,
                        lr=None,
                        fetch_names=None,
                        fetch_indices=None,
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                        mode=None):
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        logs = {}
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        if epoch is not None:
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            logs["epoch"] = epoch
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        if step is not None:
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            logs["step"] = step + 1
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        if lr is not None:
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            logs["lr"] = lr
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        group_idx = 0
        if mode != "predict":
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            # logging loss
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            loss_indices = fetch_indices[group_idx]
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            assert len(loss_indices) <= 1
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            for idx in loss_indices:
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                logs["loss"] = outs[idx][0]
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            group_idx += 1
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            # logging metrics
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            metric_vars = self._fetch_vars[mode]["metrics"]
            if metric_vars:
                for metric in self._metrics:
                    metrics_indices = fetch_indices[group_idx]
                    metric_out = []
                    for idx in metrics_indices:
                        metric_out.append(outs[idx])
                    if metric_out:
                        metric.update(*metric_out)
                        results = metric.accumulate()
                        for i, res in enumerate(to_list(results)):
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                            logs[metric.name()[i]] = res
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                    group_idx += 1
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        # logging outputs
        elif mode == "predict":
            outputs_indices = fetch_indices[group_idx]
            logs_out = {}
            for idx in outputs_indices:
                logs_out["out%d" % (idx)] = outs[idx]
            logs["outputs"] = logs_out
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            group_idx += 1
        # logging user fetches
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        collect_fetches = get_collection(CollectionNames.FETCHES)
        logs_fetch = {}
        for name, var in collect_fetches:
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            if var.name in fetch_names:
                idx = fetch_names.index(var.name)
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                logs_fetch[name or var.name] = outs[idx]
        logs["fetches"] = logs_fetch
        return logs
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    def _prepare_program(self, mode):
        # Do the build process
        self._build(mode)
        # Do the planning process
        self._plan(mode)
        # Do the parallel process
        self._parallel(mode)
        # Init comm and startup program
        self._initialize(mode)
        self._has_prepared[mode] = True

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    def _build(self, mode):
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        if _non_static_mode() or self._dygraph_mode:
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            paddle.disable_static()
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            self._dygraph_mode = True
            self._logger.info("Building model with 'to_static' method.")

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            inputs_spec = self._inputs_spec
            labels_spec = self._labels_spec if self._labels_spec else []
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            self.program_helper = ProgramHelper(self._model, self._loss,
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                                                self._metrics, inputs_spec,
                                                labels_spec)
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            # build forward main program
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            self.program_helper.build_program(mode)
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            self.concrete_program = self.program_helper.concrete_program
            serial_main_prog = self.program_helper.main_program
            serial_startup_prog = self.program_helper.startup_program
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            inputs = self.program_helper.input_vars
            outputs = self.program_helper.output_vars
            labels = self.program_helper.label_vars
            losses = self.program_helper.loss_vars
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            self._losses = losses
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            metrics = self.program_helper.metric_vars
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            self._inputs = inputs
            self._labels = labels

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            paddle.enable_static()
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        else:
            # build program in static mode
            serial_main_prog = self._serial_main_progs.get(mode, None)
            if serial_main_prog is not None:
                return

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            outputs = []
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            losses = []
            metrics = []
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            inputs = self._inputs if self._inputs else []
            labels = self._labels if self._labels else []
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            serial_main_prog = self._orig_main_prog.clone()
            serial_startup_prog = self._orig_startup_prog.clone()
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            if not self._skip_build:
                with static.program_guard(serial_main_prog, serial_startup_prog), \
                    utils.unique_name.guard():
                    outputs = to_list(self._model(*inputs))
                    if mode != "predict" and self._loss:
                        losses = to_list(self._loss(*(outputs + labels)))
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                        self._losses = losses
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                    if mode != "predict" and (outputs or labels):
                        for metric in self._metrics:
                            metrics.append(
                                to_list(metric.compute(*(outputs + labels))))
            else:
                losses = to_list(self._loss)
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                self.losses = losses
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        default_ctx = get_default_distributed_context()
        if not default_ctx.has_annotation:
            # We build the world process group because the data parallel
            # needs all ranks by default.
            new_process_group(list(range(self._nranks)))
            default_ctx.data_parallel = True

        feed_vars = {"inputs": inputs, "labels": labels}

        fetch_vars = {
            "outputs": flatten(outputs),
            "loss": losses,
            "metrics": metrics
        }

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        if mode != "train":
            serial_main_prog = serial_main_prog.clone(for_test=True)

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        self._set_recompute_ckpts()
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        self._dist_contexts[mode] = DistributedContext(
            serial_main_prog, serial_startup_prog, self._optimizer, losses,
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            feed_vars, fetch_vars, self._cluster, self._strategy)
        self._dist_contexts[mode].gradient_scale = self._strategy.gradient_scale
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    def _optimization_tuning(self, mode, dataset, batch_size):
        if not self._tuning.enable:
            raise ValueError("Please set `tuning.enable=True`.")
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        assert mode == "train"
        # Do the build process
        self._build(mode)
        # Do the planning process
        self._plan(mode)

        dataset.dp_world_size = self._dp_world_sizes
        dataset.dp_rank = self._dp_ranks
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        from .tuner.optimization_tuner import OptimizationTuner
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        self._optimization_tuner = OptimizationTuner(self._tuning.to_dict(),
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                                                     self._dist_contexts[mode],
                                                     dataset,
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                                                     self._inputs_spec,
                                                     self._labels_spec,
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                                                     batch_size=batch_size,
                                                     rank=self._cur_rank)

        self._optimization_tuner.tune()

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        if self._tuning.run_after_tuning:
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            # update the strategy
            self._dist_contexts[
                mode]._strategy = self._optimization_tuner.get_best_config()

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    def _plan(self, mode):
        if self._planned_mode is None:
            self._planned_mode = mode
        else:
            self._init_dist_context(mode)

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        self._planners[mode] = Planner(mode, self._dist_contexts[mode])
        self._planners[mode].plan()
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        # infer data parallel info
        inputs_var = self._dist_contexts[mode].serial_feed_vars["inputs"]
        labels_var = self._dist_contexts[mode].serial_feed_vars["labels"]
        block = self._dist_contexts[mode].serial_main_program.global_block()
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        # TODO: check this feed_list
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        feed_list = []
        for var in inputs_var + labels_var:
            if var.name in block.vars:
                feed_list.append(block.vars[var.name])

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        self._dp_world_sizes = []
        self._dp_ranks = []
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        for feed_var in feed_list:
            dp_world_size, dp_rank = self._get_input_split_info(
                feed_var, self._dist_contexts[mode])
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            self._dp_world_sizes.append(dp_world_size)
            self._dp_ranks.append(dp_rank)
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    def _parallel(self, mode, all_ranks=False):
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        # Parallelize program based on the planner's results
        # For now, the completer has to be passed to the planner,
        # because we may use it to complete the annotation of the backwarkward and update.
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        parallelizer = Parallelizer(mode, self._planners[mode].completer,
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                                    self._dist_contexts[mode])
        if not all_ranks:
            parallelizer.parallel(self._cur_rank)
        else:
            parallelizer.parallel_all()
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    def _init_dist_context(self, mode):
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        # Init dist_context['mode'] with the first planned dist_context
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        # to guarantee that train/eval/predict mode have same parallel strategy
        dist_context = self._dist_contexts[mode]
        origin_main_prog = dist_context._original_serial_main_program
        ref_mode = self._planned_mode
        ref_dist_context = self._dist_contexts[ref_mode]
        ref_origin_main_prog = ref_dist_context._original_serial_main_program
        ref_blocks = ref_origin_main_prog.blocks
        for ib, block in enumerate(origin_main_prog.blocks):
            for iop, op in enumerate(block.ops):
                ref_op = ref_blocks[ib].ops[iop]
                assert op.type == ref_op.type, \
                    "'{}' mode op '{}' is different with '{}' op '{}'. ".format(mode, op.type, ref_mode, ref_op.type)
                ref_op_dist_attr = ref_dist_context.get_op_dist_attr_for_program(
                    ref_op)
                dist_context.set_op_dist_attr_for_program(op, ref_op_dist_attr)

    def _initialize(self, mode):
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        # Get the current content from the distributed context
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        self._serial_main_progs[mode] = self._dist_contexts[
            mode].serial_main_program
        self._serial_startup_progs[mode] = self._dist_contexts[
            mode].serial_startup_program
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        self._dist_main_progs[mode] = self._dist_contexts[
            mode].dist_main_programs
        self._dist_startup_progs[mode] = self._dist_contexts[
            mode].dist_startup_programs
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        self._feed_vars[mode] = self._dist_contexts[mode].serial_feed_vars
        self._fetch_vars[mode] = self._dist_contexts[mode].serial_fetch_vars
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        self._optimizer = self._dist_contexts[mode]._serial_optimizer
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        if self._nranks > 1:
            # Traverse different rank programs and traverse each op of them,
            # instantiate communication by process_mapping.
            all_process_groups = get_all_process_groups()
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            if self._strategy.auto_mode == "full":
                initialize_pg_in_full_mode(all_process_groups, cur_rank)
            else:
                for process_group in all_process_groups:
                    if self._cur_rank not in process_group.ranks:
                        continue
                    process_group.instantiate()
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        place = _get_device()
        if isinstance(place, fluid.CUDAPlace):
            place = fluid.CUDAPlace(ParallelEnv().dev_id)
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        if self._strategy.seed:
            paddle.seed(self._strategy.seed + self._dp_ranks[0])
            np.random.seed(self._strategy.seed + self._dp_ranks[0])
            random.seed(self._strategy.seed + self._dp_ranks[0])

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        if self._dygraph_mode:
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            dist_context = self._dist_contexts[mode]
            dist_main_program = self._dist_main_progs[mode][self._cur_rank]
            self.program_helper.init(dist_main_program, place, dist_context)
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        if self._executor is None:
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            self._executor = paddle.static.Executor(place)
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            uninitialized = []
            dist_startup_prog = self._dist_startup_progs[mode][self._cur_rank]
            for var in dist_startup_prog.list_vars():
                scope_var = global_scope().find_var(var.name)
                if scope_var and scope_var.get_tensor()._is_initialized():
                    continue
                uninitialized.append(var)
            if uninitialized:
                prune_startup_prog = dist_startup_prog._prune(uninitialized)
                self._executor.run(prune_startup_prog)
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            if hasattr(self, "_state_dict") and hasattr(self, "_dist_attr"):
                self._set_state_dict(mode, self._strict, self._state_dict,
                                     self._dist_attr)

        if self._strategy.reinit:
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            self._logger.info("NOTE: parameters will be re-initialized.")
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            dist_startup_prog = self._dist_startup_progs[mode][self._cur_rank]
            self._executor.run(dist_startup_prog)

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    def fit(self,
            train_data,
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            train_sample_split=None,
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            batch_size=1,
            epochs=1,
            steps_per_epoch=None,
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            log_freq=10,
            save_dir=None,
            save_freq=1,
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            valid_data=None,
            valid_sample_split=None,
            valid_freq=1,
            valid_steps=None,
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            collate_fn=None,
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            callbacks=None,
            verbose=2):
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        """
        Trains the model for a fixed number of epochs. If `valid_data` is set,
        evaluation will be done at the end of each epoch.

        Args:
            train_data (Dataset): An instance of paddle paddle.io.Dataset. Default: None.
            train_sample_split (int, optional): Each sample of the train dataset is assumed
                to be a (input, label) pair by default and has two items. If each sample has
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                more than two items, train_sample_split specifies how to split these items into
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                input and label. The items before it are input and the left are label. Default: None.
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            batch_size (int, optional): The batch size of train_data and valid_data if provided.
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                The user's data will be used directly without batching if set to None. Default: 1.
            epochs (int, optional): The number of epochs to train the model. Default: 1.
            steps_per_epoch (int, optional): The total number of steps (batches of samples)
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                is executed in one epoch before stating the next one. If None, it is equal to
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                the number samples in your dataset divided by the batch size. Default: None.
            valid_data (Dataset, optional): An instance of paddle paddle.io.Dataset used for
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                evaluation at the end of epoch. No evaluation will be done if set to None.
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                Default: None. (Unsupported for now)
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            valid_freq (int, optional): Only relevant if valid_data is provided. This specifies
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                how many training epochs before a new evaluation is performed. Default: 1.
            valid_sample_split (int, optional): Only relevant if valid_data is provided.
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                Each sample of the valid dataset is assumed to be a (input, label) pair
                by default and has two items. If each sample has more than two items,
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                valid_sample_split specifies how to split these items into input and label.
                The items before it are input and the left are label. Default: None.
            valid_steps (int, optional): Only relevant if valid_data is provided.
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                It is the total number of steps (batches of samples) to draw before
                stopping validation at the end of every epoch. If None, validation will run until the
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                `valid_data` dataset is exhausted. The validation will start from the
                beginning of the dataset at each epoch. Default: None.
            collate_fn(callable, optional): function to generate mini-batch data by merging
                the sample list, None for only stack each fields of sample in axis
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                0. Default None.
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            callbacks (Callback|None, optional): A list of `Callback` instances to apply
                during training. Default: None. (Unused for now)

        Returns:
            None

        Examples:

            .. code-block:: python

                import paddle
                import paddle.vision.transforms as T
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                from paddle.distributed.fleet import auto
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                from paddle.vision.datasets import MNIST

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

                model = paddle.vision.models.LeNet()
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                loss = paddle.nn.CrossEntropyLoss()
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                optimizer = paddle.optimizer.Adam(
                    learning_rate=0.001, parameters=model.parameters())
                metrics = paddle.metric.Accuracy(topk=(1, 2))

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                engine = auto.Engine(model, loss, optimizer, metrics)
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                engine.fit(train_dataset,
                           epochs=2,
                           batch_size=64)
        """
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        self._mode = 'train'
        self._inputs_spec, self._labels_spec = self._prepare_data_spec(
            train_data, train_sample_split, batch_size)
        self._inputs, self._labels = self._prepare_data_tensor(
            self._inputs_spec, self._labels_spec)
        if not self._has_prepared[self._mode]:
            self._prepare_program(self._mode)
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        else:
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            self._switch_mode(self._mode)
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        assert self._mode in self._dist_main_progs, \
            "train model is not ready, please call `engine._prepare_program('train')` first."

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        train_dataloader = self._prepare_dataloader_from_generator(
            dataset=train_data,
            capacity=70,
            iterable=False,
            batch_size=batch_size,
            epochs=epochs,
            steps_per_epoch=steps_per_epoch,
            collate_fn=collate_fn)
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        fetch_names, fetch_indices = self._prepare_fetch(None, mode=self._mode)
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        cbks = config_callbacks(
            callbacks,
            engine=self,
            batch_size=batch_size,
            epochs=epochs,
            steps=train_dataloader._steps,
            log_freq=log_freq,
            save_freq=save_freq,
            save_dir=save_dir,
            verbose=verbose,
            metrics=self._metrics_name(),
            acc_step=self._k_steps,
        )

        cbks.on_begin('train')
        for epoch in range(epochs):
            logs = {}
            cbks.on_epoch_begin(epoch)
            for step, _ in enumerate(train_dataloader):
                cbks.on_batch_begin('train', step, logs)
                try:
                    outs = self._executor.run(
                        self.main_program,
                        fetch_list=fetch_names,
                        use_program_cache=self._strategy.use_cache,
                        return_numpy=self._strategy.return_numpy)
                except core.EOFException:
                    break
                lr = get_lr(self._optimizer)
                logs = self._prepare_logger(outs, epoch, step, lr, fetch_names,
                                            fetch_indices, self._mode)
                cbks.on_batch_end('train', step, logs)

            if valid_data and (epoch + 1) % valid_freq == 0:
                val_logs = self.evaluate(valid_data, valid_sample_split,
                                         batch_size, valid_steps, log_freq,
                                         collate_fn, callbacks, verbose)
                val_logs = {
                    "val_" + name: val
                    for name, val in val_logs.items()
                }
                logs.update(val_logs)
                self._switch_mode("train")
            else:
                self._reset_metrics()

            cbks.on_epoch_end(epoch, logs)

        cbks.on_end('train', logs)
        return self.history
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    def evaluate(self,
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                 valid_data,
                 valid_sample_split=None,
855
                 batch_size=1,
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                 steps=None,
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                 log_freq=10,
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                 collate_fn=None,
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                 callbacks=None,
                 verbose=2):
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        """
        Evaluate the loss and metrics of the model on evaluation data.

        Args:
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            valid_data (Dataset): An instance of paddle paddle.io.Dataset. Default: None.
            valid_sample_split (int, optional): Each sample of the eval dataset is assumed
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                to be a (input, label) pair by default and has two items. If each sample has
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                more than two items, valid_sample_split specifies how to split these items into
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                input and label. The items before it are input and the left are label. Default: None.
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            batch_size (int, optional): The batch size of valid_data. The user's data will
871
                be used directly without batching if set to None. Default: 1.
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            steps (int, optional): It is the total number of steps (batches of samples) to draw before
                stopping evaluation. If None, evaluation will run until the `valid_data` dataset is exhausted.
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                The evaluation will start from the beginning of the dataset in each run. Default: None.
            collate_fn(callable, optional): function to generate mini-batch data by merging
                the sample list, None for only stack each fields of sample in axis
                0. Default None.
            callbacks (Callback|None, optional): A list of `Callback` instances to apply
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                during evaluating. Default: None. (Unused for now)
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        Returns:
            None

        Examples:

            .. code-block:: python

                import paddle
                import paddle.vision.transforms as T
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                from paddle.distributed.fleet import auto
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                from paddle.vision.datasets import MNIST

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

                model = paddle.vision.models.LeNet()
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                loss = paddle.nn.CrossEntropyLoss()
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                metrics = paddle.metric.Accuracy(topk=(1, 2))

903
                engine = auto.Engine(model, loss, metrics=metrics)
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                engine.evaluate(valid_dataset, batch_size=64)

        """
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        self._mode = 'eval'
        self._inputs_spec, self._labels_spec = self._prepare_data_spec(
            valid_data, valid_sample_split, batch_size)
        self._inputs, self._labels = self._prepare_data_tensor(
            self._inputs_spec, self._labels_spec)
        if not self._has_prepared[self._mode]:
            self._prepare_program(self._mode)
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        else:
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            self._switch_mode(self._mode)
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        assert self._mode in self._dist_main_progs, \
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            "eval model is not ready, please call `engine._prepare_program('eval')` first."
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        valid_dataloader = self._prepare_dataloader_from_generator(
            dataset=valid_data,
            capacity=70,
            iterable=False,
            batch_size=batch_size,
            steps_per_epoch=steps,
            collate_fn=collate_fn)
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        fetch_names, fetch_indices = self._prepare_fetch(None, mode=self._mode)
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        cbks = config_callbacks(
            callbacks,
            engine=self,
            batch_size=batch_size,
            log_freq=log_freq,
            verbose=verbose,
            metrics=self._metrics_name(),
        )

        eval_steps = valid_dataloader._steps
        cbks.on_begin('eval', {
            'steps': eval_steps,
            'metrics': self._metrics_name()
        })
        logs = {}
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        for step, _ in enumerate(valid_dataloader):
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            cbks.on_batch_begin('eval', step, logs)
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            try:
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                outs = self._executor.run(
                    self.main_program,
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                    fetch_list=fetch_names,
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                    use_program_cache=self._strategy.use_cache,
                    return_numpy=self._strategy.return_numpy)
            except core.EOFException:
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                break
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            logs = self._prepare_logger(outs, None, step, None, fetch_names,
                                        fetch_indices, self._mode)
            cbks.on_batch_end('eval', step, logs)
        cbks.on_end('eval', logs)
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        self._reset_metrics()
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        return logs
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    def predict(self,
                test_data,
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                test_sample_split=None,
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                batch_size=1,
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                steps=None,
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                collate_fn=None,
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                callbacks=None,
                verbose=2):
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        """
        Compute the output predictions on testing data.

        Args:
            test_data (Dataset): An instance of paddle paddle.io.Dataset. Default: None.
            test_sample_split (int, optional): Each sample of the test dataset is assumed
                to be a (input, label) pair by default and has two items. If each sample has
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                more than two items, test_sample_split specifies how to split these items into
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                input and label. The items before it are input and the left are label. Default: None.
            batch_size (int, optional): The batch size of test_data. The user's data will
                be used directly without batching if set to None. Default: 1.
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            steps (int, optional): It is the total number of steps (batches of samples) to draw before
                stopping predict. If None, predict will run until the `test_data` dataset is exhausted.
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                The predict will start from the beginning of the dataset in each run. Default: None.
            collate_fn(callable, optional): function to generate mini-batch data by merging
                the sample list, None for only stack each fields of sample in axis
                0. Default None.
            callbacks (Callback|None, optional): A list of `Callback` instances to apply
                during testing. Default: None. (Unused for now)

        Returns:
            None

        Examples:

            .. code-block:: python

                import paddle
                import paddle.vision.transforms as T
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                from paddle.distributed.fleet import auto
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                from paddle.vision.datasets import MNIST

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

                model = paddle.vision.models.LeNet()

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                engine = auto.Engine(model)
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                engine.predict(valid_dataset, batch_size=64)
        """
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        self._mode = 'predict'
        self._inputs_spec, self._labels_spec = self._prepare_data_spec(
            test_data, test_sample_split, batch_size)
        self._inputs, self._labels = self._prepare_data_tensor(
            self._inputs_spec, self._labels_spec)
        if not self._has_prepared[self._mode]:
            self._prepare_program(self._mode)
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        else:
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            self._switch_mode(self._mode)
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        assert self._mode in self._dist_main_progs, \
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            "predict model is not ready, please call `engine._prepare_program('predict')` first."
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        test_dataloader = self._prepare_dataloader_from_generator(
            dataset=test_data,
            capacity=70,
            iterable=False,
            batch_size=batch_size,
            steps_per_epoch=steps,
            collate_fn=collate_fn)
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        fetch_names, fetch_indices = self._prepare_fetch(None, mode=self._mode)
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        outputs = []
        cbks = config_callbacks(callbacks, engine=self, verbose=verbose)
        test_steps = test_dataloader._steps
        cbks.on_begin('predict', {'steps': test_steps})
        logs = {}
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        for step, _ in enumerate(test_dataloader):
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            cbks.on_batch_begin('predict', step, logs)
1042
            try:
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                outs = self._executor.run(
                    self.main_program,
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                    fetch_list=fetch_names,
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                    use_program_cache=self._strategy.use_cache,
                    return_numpy=self._strategy.return_numpy)
            except core.EOFException:
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                break
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            logs = self._prepare_logger(outs, None, step, None, fetch_names,
                                        fetch_indices, self._mode)
            cbks.on_batch_end('predict', step, logs)
            outputs.append(list(logs["outputs"].values()))
        cbks.on_end('predict', logs)
        return outputs

    def dataloader(self,
                   dataset,
                   batch_size=1,
                   shuffle=False,
                   drop_last=False,
                   collate_fn=None,
                   num_workers=0,
                   use_buffer_reader=True,
                   use_shared_memory=True,
                   timeout=0,
                   worker_init_fn=None,
                   epochs=1,
                   steps_per_epoch=None,
                   sample_split=1,
                   mode=None):
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        if mode is not None:
            self.to_mode(mode)
        self._inputs_spec, self._labels_spec = self._prepare_data_spec(
            dataset, sample_split, batch_size)
        self._inputs, self._labels = self._prepare_data_tensor(
            self._inputs_spec, self._labels_spec)
        if not self._has_prepared[self._mode]:
            self._prepare_program(self._mode)
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        else:
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            self._switch_mode(self._mode)
        dataloader = self._prepare_dataloader(
            dataset,
            return_list=False,
            batch_size=batch_size,
            shuffle=shuffle,
            drop_last=drop_last,
            collate_fn=collate_fn,
            num_workers=num_workers,
            use_buffer_reader=use_buffer_reader,
            use_shared_memory=use_shared_memory,
            timeout=timeout,
            worker_init_fn=worker_init_fn,
            epochs=epochs,
            steps_per_epoch=steps_per_epoch)
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        return dataloader

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    def dataloader_from_generator(self,
                                  dataset,
                                  capacity=70,
                                  use_double_buffer=True,
                                  iterable=True,
                                  use_multiprocess=False,
                                  drop_last=True,
                                  batch_size=1,
                                  epochs=1,
                                  steps_per_epoch=None,
                                  collate_fn=None,
                                  sample_split=1,
                                  mode=None):
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        if mode is not None:
            self.to_mode(mode)
        self._inputs_spec, self._labels_spec = self._prepare_data_spec(
            dataset, sample_split, batch_size)
        self._inputs, self._labels = self._prepare_data_tensor(
            self._inputs_spec, self._labels_spec)
        if not self._has_prepared[self._mode]:
            self._prepare_program(self._mode)
        else:
            self._switch_mode(self._mode)
        dataloader = self._prepare_dataloader_from_generator(
            dataset=dataset,
            capacity=capacity,
            use_double_buffer=use_double_buffer,
            iterable=iterable,
            return_list=False,
            use_multiprocess=use_multiprocess,
            drop_last=drop_last,
            batch_size=batch_size,
            epochs=epochs,
            steps_per_epoch=steps_per_epoch,
            collate_fn=collate_fn)
        return dataloader

    def prepare(self,
                inputs_spec=None,
                labels_spec=None,
                inputs=None,
                labels=None,
                main_program=None,
                startup_program=None,
                mode=None):
        if mode is not None:
            self.to_mode(mode)
        if inputs or labels:
            self._skip_build = True
1147 1148
            self._inputs_spec = inputs_spec
            self._labels_spec = labels_spec
1149
            self._inputs, self._labels = self._prepare_data_tensor(
1150
                self._inputs_spec, self._labels_spec, inputs, labels)
1151 1152 1153 1154 1155 1156 1157 1158 1159 1160 1161
            self._orig_main_prog = main_program
            if self._orig_main_prog is None:
                self._orig_main_prog = static.default_main_program()
            self._orig_startup_prog = startup_program
            if self._orig_startup_prog is None:
                self._orig_startup_prog = static.default_startup_program()
            if not self._has_prepared[self._mode]:
                self._prepare_program(self._mode)
            else:
                self._switch_mode(self._mode)
        elif inputs_spec or labels_spec:
1162 1163
            self._inputs_spec = inputs_spec
            self._labels_spec = labels_spec
1164 1165
            self._outside_dataloader = True
            self._inputs, self._labels = self._prepare_data_tensor(
1166
                self._inputs_spec, self._labels_spec)
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            self._orig_main_prog = main_program
            if self._orig_main_prog is None:
                self._orig_main_prog = static.default_main_program()
            self._orig_startup_prog = startup_program
            if self._orig_startup_prog is None:
                self._orig_startup_prog = static.default_startup_program()
            if not self._has_prepared[self._mode]:
                self._prepare_program(self._mode)
            else:
                self._switch_mode(self._mode)
        else:
            assert self._inputs_spec and self._labels_spec, \
                "Please call the dataloader(...) before calling prepare(...)"

1181
    def run(self, data=None, feed=None, fetch_list=None, mode=None):
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        if mode is not None:
            self.to_mode(mode)
        feed_dict = self._prepare_feed(data, feed, self._mode)
        fetch_names, fetch_indices = self._prepare_fetch(fetch_list, self._mode)
        if self._outside_dataloader and not self._has_prepared_reader[
                self._mode]:
            self._prepare_reader()
        outs = self._executor.run(self.main_program,
                                  feed=feed_dict,
                                  fetch_list=fetch_names,
                                  use_program_cache=self._strategy.use_cache,
                                  return_numpy=self._strategy.return_numpy)
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        logs = self._prepare_logger(outs, None, None, None, fetch_names,
                                    fetch_indices, self._mode)
        return logs
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    def _prepare_dataloader(self,
                            dataset,
1200 1201 1202 1203 1204 1205 1206 1207 1208 1209
                            return_list=True,
                            batch_size=1,
                            shuffle=False,
                            drop_last=False,
                            collate_fn=None,
                            num_workers=0,
                            use_buffer_reader=True,
                            use_shared_memory=True,
                            timeout=0,
                            worker_init_fn=None,
1210
                            epochs=1,
1211
                            steps_per_epoch=None):
1212

1213 1214 1215 1216
        if self._strategy.gradient_merge and batch_size is not None:
            assert batch_size % self._k_steps == 0, \
                "Requires batch_size:[{}] to be divisible by k_steps:[{}].".format(batch_size, self._k_steps)
            batch_size //= self._k_steps
1217

1218 1219 1220
        dist_main_prog = self._dist_main_progs[self._mode][self._cur_rank]
        dist_startup_prog = self._dist_startup_progs[self._mode][self._cur_rank]
        dist_context = self._dist_contexts[self._mode]
1221
        dist_main_block = dist_main_prog.global_block()
1222

1223 1224 1225 1226
        # NOTE: Get feed_list, then insert dataloader op with sharded var shape.
        # Cause predict_program does not contain labels var,
        # then we will add labels var from serial_program to dist_program,
        # that maintains the length of feed_list equal to the length of dataset's values.
1227 1228
        inputs_var = self._feed_vars[self._mode]["inputs"]
        labels_var = self._feed_vars[self._mode]["labels"]
1229 1230 1231 1232
        feed_list = []
        for var in inputs_var + labels_var:
            if var.name in dist_main_block.vars:
                feed_list.append(dist_main_block.vars[var.name])
1233 1234 1235 1236
            else:
                copy_var = dist_main_block._clone_variable(var, var.persistable)
                copy_var.desc.set_original_id(var.desc.original_id())
                feed_list.append(copy_var)
1237 1238

        # insert read op at the end of program
1239
        places = paddle.static.cuda_places()
1240
        with static.program_guard(dist_main_prog, dist_startup_prog):
1241
            dataloader = DistributedDataLoader(
1242
                dataset,
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                feed_list=feed_list,
                places=places,
                return_list=return_list,
                batch_size=batch_size,
                shuffle=shuffle,
                drop_last=drop_last,
                collate_fn=collate_fn,
                num_workers=num_workers,
                use_buffer_reader=use_buffer_reader,
                use_shared_memory=use_shared_memory,
                timeout=timeout,
                worker_init_fn=worker_init_fn,
                epochs=epochs,
                steps_per_epoch=steps_per_epoch,
                split_data=self._strategy.split_data,
1258
                data_parallel_world_size=self._dp_world_sizes,
1259
                data_parallel_rank=self._dp_ranks)
1260

1261 1262
        return dataloader

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    def _prepare_dataloader_from_generator(self,
                                           dataset,
                                           capacity=None,
                                           use_double_buffer=True,
                                           iterable=True,
                                           return_list=False,
                                           use_multiprocess=False,
                                           drop_last=True,
                                           batch_size=1,
                                           epochs=1,
                                           steps_per_epoch=None,
                                           collate_fn=None):

        if self._strategy.gradient_merge and batch_size is not None:
            assert batch_size % self._k_steps == 0, \
                "Requires batch_size:[{}] to be divisible by k_steps:[{}].".format(batch_size, self._k_steps)
            batch_size //= self._k_steps

        dist_main_prog = self._dist_main_progs[self._mode][self._cur_rank]
        dist_startup_prog = self._dist_startup_progs[self._mode][self._cur_rank]
        dist_context = self._dist_contexts[self._mode]
        dist_main_block = dist_main_prog.global_block()

        # NOTE: Get feed_list, then insert dataloader op with sharded var shape.
        # Cause predict_program does not contain labels var,
        # then we will add labels var from serial_program to dist_program,
        # that maintains the length of feed_list equal to the length of dataset's values.
        inputs_var = self._feed_vars[self._mode]["inputs"]
        labels_var = self._feed_vars[self._mode]["labels"]
        feed_list = []
        for var in inputs_var + labels_var:
            if var.name in dist_main_block.vars:
                feed_list.append(dist_main_block.vars[var.name])
            else:
                copy_var = dist_main_block._clone_variable(var, var.persistable)
                copy_var.desc.set_original_id(var.desc.original_id())
                feed_list.append(copy_var)

        places = paddle.static.cuda_places()
        with static.program_guard(dist_main_prog, dist_startup_prog):
            dataloader = DistributedDataLoaderFromGenerator(
                dataset=dataset,
                feed_list=feed_list,
                capacity=capacity,
                use_double_buffer=use_double_buffer,
                iterable=iterable,
                return_list=return_list,
                use_multiprocess=use_multiprocess,
                drop_last=drop_last,
                places=places,
                batch_size=batch_size,
                epochs=epochs,
                steps_per_epoch=steps_per_epoch,
                collate_fn=collate_fn,
                split_data=self._strategy.split_data,
                data_parallel_world_size=self._dp_world_sizes,
                data_parallel_rank=self._dp_ranks)
        self._prepare_reader()
        return dataloader

    def _tune(self, tune_data, tune_sample_split=None, batch_size=1):
        self._mode = 'train'
        self._inputs_spec, self._labels_spec = self._prepare_data_spec(
            tune_data, tune_sample_split, batch_size)
        self._inputs, self._labels = self._prepare_data_tensor(
            self._inputs_spec, self._labels_spec)
        self._optimization_tuning(self._mode, tune_data, batch_size)

1331 1332
    def _validate_spec(self, specs):
        specs = to_list(specs)
1333
        self._k_steps = self._strategy.gradient_merge.k_steps
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        if specs is not None:
            for i, spec in enumerate(specs):
                assert isinstance(spec, InputSpec)
                if spec.name is None:
                    raise ValueError(
                        "Requires Input[{}].name != None, but receive `None` with {}."
                        .format(i, spec))
1341
                if self._k_steps > 1:
1342
                    shape = list(spec.shape)
1343 1344 1345
                    assert shape[0] % self._k_steps == 0, \
                        "Requires batch_size[{}] to be divisible by k_steps[{}].".format(spec.shape[0], self._k_steps)
                    shape[0] //= self._k_steps
1346
                    spec.shape = shape
1347 1348
        return specs

1349 1350 1351 1352
    def _is_local_var(self, var):
        var_name = _to_name_str(var)
        return var_name in self.main_program.global_block().vars

1353 1354
    def _get_input_split_info(self, var, dist_context):
        # deduce how the input data is split among the cluster
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        from .utils import _get_comm_group, _get_corresponding_rank

        tensor_dist_attr = dist_context.get_tensor_dist_attr_for_program(var)
        process_mesh = tensor_dist_attr.process_mesh
        dims_mapping = tensor_dist_attr.dims_mapping

        if self._cur_rank not in process_mesh.processes:
            rank_id = _get_corresponding_rank(dist_context, process_mesh,
                                              self._cur_rank)
        else:
            rank_id = self._cur_rank

        batch_size_axis = dims_mapping[0]
        if batch_size_axis > -1 and process_mesh.topology[batch_size_axis] > 1:
            group_ranks = _get_comm_group(process_mesh.processes,
                                          process_mesh.topology,
                                          batch_size_axis, rank_id)
            return len(group_ranks), group_ranks.index(rank_id)

1374
        return 1, 0
1375

1376 1377 1378 1379
    def _set_recompute_ckpts(self):
        # NOTE hack to enable recompute in engine api for GPT-3
        # TODO support more PaddleNLP/CV models here

1380
        recompute = self._strategy.recompute
1381 1382

        # extract ckpts by specific model
1383
        if isinstance(self._model, paddle.nn.Layer):
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            if hasattr(self._model,
                       "gpt") and self._model.__class__.__name__ in [
                           'GPTForPretraining', 'GPTForPretrainingAuto'
                       ]:
1388
                exact_ckpts = self._model.gpt.checkpoints
1389
            else:
1390
                exact_ckpts = recompute.checkpoints
1391
        else:
1392
            exact_ckpts = recompute.checkpoints
1393 1394

        # modify strategy
1395 1396
        if recompute.enable:
            recompute.checkpoints = exact_ckpts[:]
1397
            logs = {
1398
                'Model Class': self._model.__class__.__name__,
1399 1400 1401 1402
                'Applied Recompute ckpts': exact_ckpts
            }
            self._logger.info(logs)

1403
    def _validate_opt(self, optimizer):
1404 1405 1406
        if optimizer is not None:
            optimizer._parameter_list = None
            optimizer._param_groups = None
1407 1408
        return optimizer

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

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

1419
    def _switch_mode(self, mode):
1420
        self.to_mode(mode)
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        self._optimizer = self._dist_contexts[mode]._serial_optimizer
1422

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    def to_mode(self, mode):
        assert mode in ["train", "eval", "predict"], \
            "mode {} should be one of ['train', 'eval', 'predict']".format(mode)
        self._mode = mode

1428 1429 1430 1431 1432 1433 1434 1435 1436
    def _set_state_dict(self, mode, strict, state_dict, dist_attr):
        program = self._dist_main_progs[mode][self._cur_rank]
        dist_context = self._dist_contexts[mode]
        cur_dist_attr = get_dist_attr(program, dist_context)
        converter = Converter(state_dict, dist_attr, cur_dist_attr)
        state_dict = converter.convert(strict=strict)
        program.set_state_dict(state_dict)

    def save(self, path, training=True):
1437 1438
        """
        Saves the model, parameters, optimizer state to path.
1439 1440 1441 1442 1443 1444 1445
        If `training` is set to False, only inference model will be saved.

        Args:
            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.
            training (bool, optional): Whether to save for training. If not, save
1446
                for inference only. If `training` is set to True, the optimizer state
1447 1448 1449 1450 1451 1452 1453 1454 1455 1456 1457 1458
                will be saved. Otherwise, only the model and parameters are saved.
                This function will silently overwrite existing file at the target
                location. Default: True.

        Returns:
            None

        Examples:

            .. code-block:: python
                import paddle
                import paddle.vision.transforms as T
1459
                from paddle.distributed.fleet import auto
1460 1461 1462 1463 1464 1465 1466 1467 1468
                from paddle.vision.datasets import MNIST

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

                model = paddle.vision.models.LeNet()
1469
                loss = paddle.nn.CrossEntropyLoss()
1470 1471 1472 1473
                optimizer = paddle.optimizer.Adam(
                    learning_rate=0.001, parameters=model.parameters())
                metrics = paddle.metric.Accuracy(topk=(1, 2))

1474
                engine = auto.Engine(model, loss, optimizer, metrics)
1475 1476 1477 1478
                engine.fit(train_dataset,
                           epochs=1,
                           batch_size=64)
                engine.save("./my_model")
1479

1480
        """
1481
        if training:
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            assert self._mode in self._serial_main_progs
            serial_program = self._serial_main_progs[self._mode]
            dist_main_prog = self._dist_main_progs[self._mode][self._cur_rank]
            dist_context = self._dist_contexts[self._mode]
1486 1487 1488 1489
            self._saver.save(path,
                             serial_program=serial_program,
                             dist_main_program=dist_main_prog,
                             dist_context=dist_context)
1490
        else:
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            assert "predict" in self._dist_main_progs
            feed_vars = self._feed_vars["predict"]['inputs']
            fetch_vars = self._fetch_vars["predict"]['outputs']
            dist_main_prog = self._dist_main_progs["predict"][self._cur_rank]
1495 1496 1497 1498 1499
            self._saver.save_inference_model(path,
                                             feed_vars,
                                             fetch_vars,
                                             self._executor,
                                             program=dist_main_prog)
1500

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    def load(self, path, strict=True, load_optimizer=True):
        """
        Load the stored model, parameters and optimizer states.

        Args:
            path (str): The prefix of files storing the model states and
1507
                optimizer states.
1508 1509 1510 1511 1512
            strict (bool, optional): Whether to skip the loading of mismatch
                parameter or raise an error when mismatch happens (not found
                the parameter in file storing model states of or receives a
                mismatch shape). Default: False.
            load_optimizer (bool, optional): If True, the stored optimizer
1513
                states is restored. Otherwise, the optimizer states is initialized
1514 1515 1516 1517 1518 1519 1520 1521 1522 1523
                from scratch. Default: False.

        Returns:
            None

        Examples:

            .. code-block:: python
                import paddle
                import paddle.vision.transforms as T
1524
                from paddle.distributed.fleet import auto
1525 1526 1527 1528 1529 1530 1531 1532 1533
                from paddle.vision.datasets import MNIST

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

                model = paddle.vision.models.LeNet()
1534
                loss = paddle.nn.CrossEntropyLoss()
1535 1536 1537 1538
                optimizer = paddle.optimizer.Adam(
                    learning_rate=0.001, parameters=model.parameters())
                metrics = paddle.metric.Accuracy(topk=(1, 2))

1539
                engine = auto.Engine(model, loss, optimizer, metrics)
1540 1541 1542 1543 1544
                engine.fit(train_dataset,
                           epochs=1,
                           batch_size=64)
                engine.save("./my_model")
                engine.load("./my_model")
1545

1546 1547 1548 1549 1550
        """
        self._strict = strict
        self._state_dict, self._dist_attr = self._saver.load(
            path, load_optimizer)
        return self._state_dict, self._dist_attr
1551

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    def cost(self, inputs_spec=None, labels_spec=None, mode="train"):
        """
        Get and Print cost, including memory of every rank,
        max memory among all ranks, and the global cost of one step based on
        communication cost(computation cost is 0 by default).
        In the future, the flops information of every rank and global cost including
        computation cost will be added.

        Args:
            inputs_spec(InputSpec): The specification of inputs. Default: None.
            labels_spec(InputSpec): The specification of labels. Default: None.
            mode (str): The engine mode must be in ["train", "predict", "eval"]. Default: "train".

        Returns:
            Return the global execution time (ms) and max memory (B).

        """
        # Check parallel mode
        if self._strategy.auto_mode == "full":
            print(
                "The cost will be calcudated in the search process when the auto mode is full."
            )
            return

        # Check mode
        accepted_modes = ["train", "predict", "eval"]
        if mode not in accepted_modes:
            raise ValueError("The mode {} is not in accepted modes {}".format(
                mode, accepted_modes))
        self.to_mode(mode)

        if inputs_spec is not None:
            self._inputs_spec, self._labels_spec = inputs_spec, labels_spec
            self._inputs, self._labels = self._prepare_data_tensor(
                self._inputs_spec, self._labels_spec)
            self._build(mode)
            self._plan(mode)
        else:
            if _non_static_mode() or self._dygraph_mode:
                raise ValueError(
                    "Please call `engine._prepare_program('mode')` firstly when in the static graph mode."
                )

        # Estimate the exec cost and max memory
        global_cost, max_memory = get_cost_from_engine(self, mode)

        return global_cost.time, max_memory

1600 1601
    @property
    def main_program(self):
1602
        return self._dist_main_progs[self._mode][self._cur_rank]
1603 1604 1605

    @property
    def startup_program(self):
1606
        return self._dist_startup_progs[self._mode][self._cur_rank]
1607 1608 1609

    @property
    def dist_context(self):
1610
        return self._dist_contexts[self._mode]
1611 1612 1613

    @property
    def serial_main_program(self):
1614
        return self._serial_main_progs[self._mode]
1615 1616 1617

    @property
    def serial_startup_program(self):
1618
        return self._serial_startup_progs[self._mode]
1619 1620 1621

    @property
    def fetch_vars(self):
1622
        return self._fetch_vars[self._mode]
1623 1624 1625

    @property
    def inputs(self):
1626
        return self._inputs
1627 1628 1629

    @property
    def labels(self):
1630
        return self._labels