executor.py 115.5 KB
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#   Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
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#
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#     http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

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import logging
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import os
import multiprocessing
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import sys
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import warnings
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import numpy as np
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from .wrapped_decorator import signature_safe_contextmanager
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from .data_feeder import convert_dtype
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from .framework import Program, default_main_program, Variable, Operator
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from .framework import convert_np_dtype_to_dtype_, _apply_pass
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from . import core
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from . import unique_name
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from . import compiler
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from . import set_flags
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from .trainer_factory import TrainerFactory
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from .trainer_factory import FetchHandlerMonitor
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import copy
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from . import framework
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from .incubate.checkpoint import auto_checkpoint as acp
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from .compiler import _prune_feed_ops
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from functools import lru_cache

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__all__ = ['Executor', 'global_scope', 'scope_guard']
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g_scope = core.Scope()
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InferNativeConfig = core.NativeConfig
InferAnalysisConfig = core.AnalysisConfig
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def global_scope():
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    """
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    :api_attr: Static Graph

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    Get the global/default scope instance. There are a lot of APIs use
    :code:`global_scope` as its default value, e.g., :code:`Executor.run`

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    Returns:
        Scope: The global/default scope instance.

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    Examples:
        .. code-block:: python

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          import paddle
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          import numpy

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          paddle.static.global_scope().var("data").get_tensor().set(numpy.ones((2, 2)), paddle.CPUPlace())
          numpy.array(paddle.static.global_scope().find_var("data").get_tensor())
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    """
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    return g_scope


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def _switch_scope(scope):
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    global g_scope
    ex = g_scope
    g_scope = scope
    return ex


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@signature_safe_contextmanager
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def scope_guard(scope):
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    """
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    This function switches scope through python `with` statement.
    Scope records the mapping between variable names and variables ( :ref:`api_guide_Variable` ),
    similar to brackets in programming languages.
    If this function is not invoked, all variables and variable names are recorded in the default global scope.
    When users need to create variables with the same name,
    they need to switch scopes through this function
    if they do not want the mapping of variables with the same name to be overwritten.
    After switching through the `with` statement,
    all variables created in the `with` block will be assigned to a new scope.

    Parameters:
        scope: The new scope.
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    Returns:
        None
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    Examples:
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        .. code-block:: python

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            import paddle
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            import numpy
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            paddle.enable_static()
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            new_scope = paddle.static.Scope()
            with paddle.static.scope_guard(new_scope):
                 paddle.static.global_scope().var("data").get_tensor().set(numpy.ones((2, 2)), paddle.CPUPlace())
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            numpy.array(new_scope.find_var("data").get_tensor())
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    """
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    ex = _switch_scope(scope)
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    try:
        yield
    finally:
        _switch_scope(ex)
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def as_numpy(tensor, copy=False):
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    """
    Convert a Tensor to a numpy.ndarray, its only support Tensor without LoD information.
    For higher dimensional sequence data, please use LoDTensor directly.
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    Examples:
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        .. code-block:: python

          import paddle.fluid as fluid
          import numpy

          new_scope = fluid.Scope()
          with fluid.scope_guard(new_scope):
              fluid.global_scope().var("data").get_tensor().set(numpy.ones((2, 2)), fluid.CPUPlace())
          tensor = new_scope.find_var("data").get_tensor()
          fluid.executor.as_numpy(tensor) # or numpy.array(new_scope.find_var("data").get_tensor())
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    Args:
       tensor(Variable): a instance of Tensor
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       copy(bool, optional): Whether to use deep copy.
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    Returns:
        numpy.ndarray
    """
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    if isinstance(tensor, core.LoDTensorArray):
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        return [as_numpy(t, copy) for t in tensor]
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    if isinstance(tensor, list):
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        return [as_numpy(t, copy) for t in tensor]
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    assert isinstance(tensor, core.LoDTensor)
    lod = tensor.lod()
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    if len(lod) > 0:
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        raise RuntimeError(
            "Some of your fetched tensors hold LoD information. \
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            They can not be completely cast to Python ndarray. \
            Please set the parameter 'return_numpy' as 'False' to \
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            return LoDTensor itself directly."
        )
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    if tensor._is_initialized():
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        if copy:
            return np.array(tensor)
        else:
            return np.asarray(tensor)
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    else:
        return None
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def dtype_is_compatible_with(first, second):
    """
    Returns True if the first dtype can be compatible the second one.
    Currently, we require the two dtype's have to be same.
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    Args:
        dtype (np.dtype|VarType|str): The type of data: float32, int64, etc.
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    Returns:
        True if the two types are same.
    """
    if not isinstance(first, core.VarDesc.VarType):
        first = convert_np_dtype_to_dtype_(first)
    if not isinstance(second, core.VarDesc.VarType):
        second = convert_np_dtype_to_dtype_(second)
    return first == second


def dimension_is_compatible_with(first, second):
    """
    Returns True if the two dimensions are compatible.

    A dimension is compatible with the other if:
    1. The length of the dimensions are same.
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    2. Each non-negative number of the two dimensions are same.
    3. For negative number or 'None' in a dimension, it means unknown so it
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       is compatible with any number.

    Args:
        first (list/tuple): integers representing shape. "None" or negative
            number means unknown.
        second (list/tuple): integers representing shape. "None" or negative
            number means unknown.

    Returns:
        True if the two dimensions are compatible.
    """

    dim_len = len(first)
    if dim_len != len(second):
        return False

    for i in range(dim_len):
        if first[i] is None or first[i] < 0:
            continue
        if second[i] is None or second[i] < 0:
            continue
        if first[i] != second[i]:
            return False

    return True


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def check_feed_shape_type(var, feed, num_places=1):
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    """
    Returns True if the variable doesn't require feed check or it is compatible
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    with the shape and have same dtype as the fed value.
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    A dimension is compatible with the other if:
    1. The length of the dimensions are same.
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    2. Each non-negative number of the two dimensions are same.
    3. For negative number or 'None' in a dimension, it means unknown so it
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       is compatible with any number.
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    Args:
        var (Variable): the Variable object
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        feed (LoDTensor): the fed value, which must be a LoDTensor
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        num_places: an integer value indicating the number of places.
            ParallelExecutor will divide data into devices (CPU/GPU) evenly.
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    Returns:
        True if the shape and dtype of variable is compatible with the feed value
    Raises:
        ValueError: if the shape or dtype of the variable is not compatible with
            the feed value
    """
    if var.desc.need_check_feed():
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        diff_shape = core.diff_tensor_shape(feed, var.desc, num_places)
        if diff_shape is not None:
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            raise ValueError(
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                'The fed Variable %r should have dimensions = %d, shape = '
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                '%r, but received fed shape %r on each device'
                % (var.name, len(var.shape), var.shape, diff_shape)
            )
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        if not dtype_is_compatible_with(feed._dtype(), var.dtype):
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            var_dtype_format = (
                convert_dtype(var.dtype)
                if isinstance(var.dtype, core.VarDesc.VarType)
                else var.dtype
            )
            feed_dtype_format = (
                convert_dtype(feed._dtype())
                if isinstance(feed._dtype(), core.VarDesc.VarType)
                else feed._dtype()
            )
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            raise ValueError(
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                'The data type of fed Variable %r must be %r, but received %r'
                % (var.name, var_dtype_format, feed_dtype_format)
            )
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    return True


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def has_feed_operators(block, feed_targets, feed_holder_name):
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    """Check whether the block already has feed operators.
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    Return false if the block does not have any feed operators.
    If some feed operators have been prepended to the block, check that
    the info contained in these feed operators matches the feed_targets
    and feed_holder_name. Raise exception when any mismatch is found.
    Return true when the block has feed operators with matching info.

    Args:
        block: a block instance (typically global block of a program)
        feed_targets: a dictionary of {feed_target_name: feed_target_data}
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        feed_holder_name: the name of the variable that holds the data of
            all feed targets. The type of this feed_holder variable is
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            FEED_MINIBATCH, which is essentially vector<LoDTensor>.

    Returns:
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        A boolean value that indicates whether a block has feed operators
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        that match the info contained in feed_targets and feed_holder_name.
    """

    feed_count = 0
    for op in block.ops:
        if op.desc.type() == 'feed':
            feed_count += 1
            assert op.desc.input('X')[0] == feed_holder_name
            feed_target_name = op.desc.output('Out')[0]
            if feed_target_name not in feed_targets:
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                raise Exception(
                    "'feed_targets' does not have {} variable".format(
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                        feed_target_name
                    )
                )
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        else:
            break
    if feed_count > 0 and feed_count != len(feed_targets):
        raise Exception(
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            "Feed operators in program desc do not match 'feed_targets'"
        )
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    return feed_count > 0


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def has_fetch_operators(
    block, fetch_targets, fetch_holder_name, fetch_op='fetch'
):
    """Check whether the block already has fetch operators.
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    Return false if the block does not have any fetch operators.
    If some fetch operators have been appended to the block, check that
    the info contained in these fetch operators matches the fetch_targets
    and fetch_holder_name. Raise exception when any mismatch is found.
    Return true when the block has fetch operators with matching info.

    Args:
        block: a block instance (typically global block of a program)
        fetch_targets: a dictionary of {fetch_target_name: fetch_target_data}
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        fetch_holder_name: the name of the variable that holds the data of
            all fetch targets. The type of this fetch_holder variable is
            FETCH_LIST, which is essentially vector<LoDTensor>.
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        fetch_op: the operator name of fetch
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    Return:
        A boolean value that indicates whether a block has fetch operators
        that match the info contained in fetch_targets and fetch_holder_name.
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    """

    fetch_count = 0
    for op in block.ops:
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        if op.desc.type() == fetch_op:
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            fetch_count += 1
            assert op.desc.output('Out')[0] == fetch_holder_name
            fetch_target_name = op.desc.input('X')[0]
            if fetch_target_name not in [
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                var.desc.name() for var in fetch_targets
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            ]:
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                raise Exception(
                    "'fetch_targets' does not have {} variable".format(
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                        fetch_target_name
                    )
                )
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            idx = op.desc.attr('col')
            assert fetch_target_name == fetch_targets[idx].desc.name()
    if fetch_count > 0 and fetch_count != len(fetch_targets):
        raise Exception(
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            "Fetch operators in program desc do not match 'fetch_targets'"
        )
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    return fetch_count > 0


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def _add_feed_fetch_ops(
    program, feed, fetch_list, feed_var_name, fetch_var_name, use_fetch_v2=False
):
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    tmp_program = program.clone()

    global_block = tmp_program.global_block()

    if feed_var_name in global_block.vars:
        feed_var = global_block.var(feed_var_name)
    else:
        feed_var = global_block.create_var(
            name=feed_var_name,
            type=core.VarDesc.VarType.FEED_MINIBATCH,
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            persistable=True,
        )
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    if fetch_var_name in global_block.vars:
        fetch_var = global_block.var(fetch_var_name)
    else:
        fetch_var = global_block.create_var(
            name=fetch_var_name,
            type=core.VarDesc.VarType.FETCH_LIST,
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            persistable=True,
        )
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    # prepend feed operators
    if not has_feed_operators(global_block, feed, feed_var_name):
        for i, name in enumerate(feed):
            if global_block.has_var(name):
                out = global_block.var(name)
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                global_block._prepend_op(
                    type='feed',
                    inputs={'X': [feed_var]},
                    outputs={'Out': [out]},
                    attrs={'col': i},
                )
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            else:
                warnings.warn(
                    "The variable %s is not found in program. It is not declared or is pruned."
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                    % name
                )
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    if use_fetch_v2:
        fetch_op = 'fetch_v2'
    else:
        fetch_op = 'fetch'

    # append fetch_operators
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    if not has_fetch_operators(
        global_block, fetch_list, fetch_var_name, fetch_op
    ):
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        for i, var in enumerate(fetch_list):
            assert isinstance(var, Variable) or isinstance(
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                var, str
            ), "Wrong type for fetch_list[%s]: %s" % (i, type(var))
            global_block.append_op(
                type=fetch_op,
                inputs={'X': [var]},
                outputs={'Out': [fetch_var]},
                attrs={'col': i},
            )
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    return tmp_program


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def _apply_inplace_addto_pass(
    program, enable_inplace, enable_addto, skip_var_names
):
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    use_cuda = True if core.is_compiled_with_cuda() else False

    attrs = {"use_cuda": use_cuda, "mem_opt_skip_vars": skip_var_names}
    attr_types = {"use_cuda": "bool", "mem_opt_skip_vars": "list[str]"}

    empty_startup_program = Program()
    if enable_inplace:
        pass_name = "buffer_shared_inplace_pass"
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        _apply_pass(
            program, empty_startup_program, pass_name, attrs, attr_types
        )
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    if enable_addto and use_cuda:
        pass_name = "inplace_addto_op_pass"
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        _apply_pass(
            program, empty_startup_program, pass_name, attrs, attr_types
        )
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def _fetch_var(name, scope=None, return_numpy=True):
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    """
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    Fetch the value of the variable with the given name from the
    given scope.

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    Args:
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        name(str): name of the variable. Typically, only persistable variables
            can be found in the scope used for running the program.
        scope(core.Scope|None): scope object. It should be the scope where
            you pass to Executor.run() when running your program.
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            If None, global_scope() will be used. Default None.
        return_numpy(bool): whether convert the tensor to numpy.ndarray.
            Default True.

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    Returns:
       LodTensor|numpy.ndarray
    """
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    assert isinstance(name, str)
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    if scope is None:
        scope = global_scope()
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    assert isinstance(scope, core._Scope)
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    var = scope.find_var(_to_name_str(name))
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    assert var is not None, (
        "Cannot find " + name + " in scope. Perhaps you need to make the"
        " variable persistable by using var.persistable = True in your"
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        " program."
    )
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    tensor = var.get_tensor()
    if return_numpy:
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        tensor = as_numpy(tensor, copy=True)
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    return tensor


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def _to_name_str(var):
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    def _to_str(var):
        if isinstance(var, Variable):
            return var.desc.name()
        elif isinstance(var, str):
            return var
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        elif isinstance(var, str):
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            return str(var)
        elif isinstance(var, Operator):
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            return str(id(var))
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        else:
            raise TypeError(str(var) + " should be Variable, Operator or str")

    # NOTEz(zhiqiu): The item in fetch_list may be tuple returned by Optimizer.minimize(),
    # see comments in _split_optimize_ops_in_fetch_list for more details.
    if isinstance(var, tuple):
        var = var[0]
    if isinstance(var, list):
        s = [_to_str(item) for item in var]
        return ','.join(s)
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    else:
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        return _to_str(var)
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def _is_enable_standalone_executor():
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    return (
        framework._enable_standalone_executor_ is None
        or framework._enable_standalone_executor_
        in [1, '1', True, 'True', 'true']
    )
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def _is_dy2st_enable_standalone_executor():
    return framework._dy2st_enable_standalone_executor_ in [
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        1,
        '1',
        True,
        'True',
        'true',
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    ]


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def _is_cuda_graph_enable_standalone_executor():
    return framework._cuda_graph_enable_standalone_executor_ in [
        1,
        '1',
        True,
        'True',
        'true',
    ]


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def _prepare_fleet_executor():
    from ..distributed.fleet.proto import fleet_executor_desc_pb2
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    trainer_endpoints_str = os.getenv("PADDLE_TRAINER_ENDPOINTS", "")
    trainer_endpoints = trainer_endpoints_str.split(',')
    fleet_exe_desc = fleet_executor_desc_pb2.FleetExecutorDesc()
    cur_rank = int(os.getenv("PADDLE_TRAINER_ID", 0))
    fleet_exe_desc.cur_rank = cur_rank
    nrank = len(trainer_endpoints)
    for rank, endpoint in enumerate(trainer_endpoints):
        rank_info = fleet_executor_desc_pb2.RankInfo()
        rank_info.rank = rank
        rank_info.ip_port = endpoint
        fleet_exe_desc.cluster_info.append(rank_info)
    fleet_exe = core.FleetExecutor(fleet_exe_desc.SerializeToString())
    return fleet_exe


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def _get_strong_program_cache_key_for_new_exe(program, feed, fetch_list):
    return program.desc.cached_hash_str() + _get_program_cache_key(
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        feed, fetch_list
    )
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def _get_strong_program_cache_key(program, feed, fetch_list):
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    # TODO(zhiqiu): use hash_str to generate cache key as above
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    def _get_varname_from_block(block):
        block_str = []
        for var_name in list(block.vars.keys()):
            block_str.append(var_name)
        return "\n".join(block_str)

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    inner_program = (
        program._program
        if isinstance(program, compiler.CompiledProgram)
        else program
    )
    return (
        _get_varname_from_block(inner_program.blocks[0])
        + str(id(program))
        + _get_program_cache_key(feed, fetch_list)
    )
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def _get_program_cache_key(feed, fetch_list):
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    feed_var_names = []
    if isinstance(feed, dict):
        feed_var_names = list(feed.keys())
    elif isinstance(feed, list) or isinstance(feed, tuple):
        for i, each in enumerate(feed):
            feed_var_names += list(each.keys())
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    fetch_var_names = list(map(_to_name_str, fetch_list))
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    return str(feed_var_names + fetch_var_names)


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def _as_lodtensor(data, place, dtype=None):
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    """
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    Convert numpy.ndarray to Tensor, its only support Tensor without LoD information.
    For higher dimensional sequence data, please use LoDTensor directly.
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    Examples:
        >>> import paddle.fluid as fluid
        >>> place = fluid.CPUPlace()
        >>> exe = fluid.executor(place)
        >>> data = np.array(size=(100, 200, 300))
        >>> np_outs = map(lambda x: fluid.executor._as_lodtensor(x, place), data)
        >>>     ...
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    Args:
        data(numpy.ndarray|list|tuple|scalar): a instance of array, scalar, list or tuple
        data(core.Place): the place of created tensor
        dtype(core.VarDesc.VarType|str): the expected data type of created tensor
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    Returns:
        LoDTensor
    """
    # NOTE(zhiqiu): convert python builtin, like float, int, and list, to numpy ndarray
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    if not isinstance(data, np.ndarray):
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        assert (
            dtype is not None
        ), 'The dtype should be given when feed data is not np.ndarray'
        dtype = (
            convert_dtype(dtype)
            if isinstance(dtype, core.VarDesc.VarType)
            else dtype
        )
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        if np.isscalar(data):
            data = np.array([data]).astype(dtype)
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        elif isinstance(data, (list, tuple)):
            data = np.array(data)
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            if data.dtype == np.object_:
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                raise TypeError(
                    "\n\tFaild to convert input data to a regular ndarray :\n\t* Usually "
                    "this means the input data contains nested lists with different lengths. "
                    "Please consider using 'fluid.create_lod_tensor' to convert it to a LoD-Tensor."
                )
            data = data.astype(dtype)
        else:
            raise TypeError(
                "Convert data of type {} to Tensor is not supported".format(
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                    type(data)
                )
            )
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    # convert numpy.ndarray to tensor
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    tensor = core.LoDTensor()
    tensor.set(data, place)
    return tensor


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class FetchHandler:
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    def __init__(self, var_dict=None, period_secs=60):
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        assert var_dict is not None
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        self.var_dict = var_dict
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        self.period_secs = period_secs

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    def handler(self, res_dict):
        for key in res_dict:
            if type(res_dict[key]) is np.ndarray:
                sys.stdout.write("{}[0]: {} ".format(key, res_dict[key][0]))
        sys.stdout.write("\n")
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    @staticmethod
    def help():
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        print(
            """
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class FetchHandlerExample(FetchHandler):
    def handler(self, res_dict):
        print(res_dict["auc"])
        print("auc: {}, {}".format(res_dict["auc"], time.ctime()))

auc = Variable()
var_dict = {"auc": auc}
handler = FetchHandlerExample(var_dict=var_dict)
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"""
        )
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class _StandaloneExecutor:
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    def __init__(self, place, main_program, scope):
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        self._place = core.Place()
        self._place.set_place(place)
        self._main_program = main_program
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        self._scope = scope
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        self._new_exe = self._create_new_executor()

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    def run(self, scope, feed_names, fetch_list, return_numpy=True):
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        """
        Args:
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            feed_names(list): This parameter represents the input names of the model.
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            fetch_list(list): This parameter represents the Tensors that need to be returned
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                after the model runs. The default is None.
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            return_numpy(bool): This parameter indicates whether convert the fetched Tensors
                (the Tensor specified in the fetch list) to numpy.ndarray. if it is False,
                the type of the return value is a list of :code:`LoDTensor`. The default is True.
        """
        fetch_list = self._check_fetch(fetch_list)

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        tensors = self._new_exe.run(
            scope, feed_names, fetch_list
        )._move_to_list()
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        if return_numpy:
            return as_numpy(tensors, copy=True)
        else:
            return tensors

    def _create_new_executor(self):
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        new_exe = core.StandaloneExecutor(self._place, self._main_program.desc)
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        return new_exe

    def _update_feed(self, feed):
        """
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        Update the feed dict, remove the feed item which is pruned in program.
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        Notes: This is a very low level API. Users should not use this API
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        directly.
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        Args:
            feed(list|dict): feed dict or list.

        Returns:
            feed:(list|dict)  updated feed.
        """
        if feed is None:
            feed = {}
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        elif isinstance(feed, (list, tuple)):
            assert len(feed) == 1, "Not compiled with data parallel"
            feed = feed[0]

        if not isinstance(feed, dict):
            raise TypeError(
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                "feed requires dict as its Parameter. But you passed in %s"
                % (type(feed))
            )
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        global_block = self._main_program.global_block()
        for feed_name in list(feed.keys()):
            if not global_block.has_var(feed_name):
                feed.pop(feed_name)
                warnings.warn(
                    "The variable %s is not found in program. It is not declared or is pruned."
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                    % feed_name
                )
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        return feed

    def _check_fetch(self, fetch_list):
        if fetch_list is None:
            fetch_list = []

        res = []
        for fetch_var in fetch_list:
            if isinstance(fetch_var, Variable):
                fetch_var = fetch_var.name
            elif not isinstance(fetch_var, str):
                raise TypeError(
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                    "Required fetch_var shall be str|Variable, but received {}".format(
                        type(fetch_var).__name__
                    )
                )
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            res.append(fetch_var)
        return res


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class _ExecutorCache:
    class _CachedData:
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        def __init__(
            self,
            program,
            feed,
            fetch_list,
            feed_var_name,
            fetch_var_name,
            place,
            scope,
        ):
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            self.program = program
            self.feed = feed
            self.fetch_list = fetch_list
            self.feed_var_name = feed_var_name
            self.fetch_var_name = fetch_var_name
            self.place = place
            self.scope = scope

            # NOTE(Ruibiao): Not all changeable item is considered for key at present,
            # ONLY: program, feed, and fetch_list
            if isinstance(self.program, compiler.CompiledProgram):
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                if not self.program._program:
                    # The program holds no _program, maybe it is constructed by graph.
                    # Convert graph to program in order to generate key.
                    self.program._program = framework.IrGraph(
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                        self.program._graph
                    ).to_program()
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                self.key = hash(
                    _get_strong_program_cache_key_for_new_exe(
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                        self.program._program, feed, fetch_list
                    )
                )
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            else:
                self.key = hash(
                    _get_strong_program_cache_key_for_new_exe(
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                        self.program, feed, fetch_list
                    )
                )
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        def __eq__(self, other):
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            return (
                isinstance(other, _ExecutorCache._CachedData)
                and self.key == other.key
            )
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        def __hash__(self):
            return self.key

    def __init__(self):
        # NOTE(Ruibiao): Wrap the lru_cache in constructor so that the cache is local to
        # the _ExecutorCache instance, otherwise a global cache may not be released after
        # the Executor instance deleted
        self._get_cached_program_and_executor = lru_cache(maxsize=8)(
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            self._get_program_and_executor
        )
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    def clear(self):
        self._get_cached_program_and_executor.cache_clear()

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    def get_program_and_executor(
        self,
        program,
        feed,
        fetch_list,
        feed_var_name,
        fetch_var_name,
        place,
        scope,
    ):
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        return self._get_cached_program_and_executor(
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            self._CachedData(
                program,
                feed,
                fetch_list,
                feed_var_name,
                fetch_var_name,
                place,
                scope,
            )
        )
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    def _get_program_and_executor(self, cached_data):
        program = cached_data.program
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        inner_program = (
            program._program
            if isinstance(program, compiler.CompiledProgram)
            else program
        )
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        feed = cached_data.feed
        fetch_list = cached_data.fetch_list
        feed_var_name = cached_data.feed_var_name
        fetch_var_name = cached_data.fetch_var_name
        place = cached_data.place
        scope = cached_data.scope

        # To apply IR pass, compile the Program to IrGraph and convert it back to Program
        if isinstance(program, compiler.CompiledProgram) or isinstance(
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            program._graph, compiler.CompiledProgram
        ):
            compiled_program = (
                program
                if isinstance(program, compiler.CompiledProgram)
                else program._graph
            )
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            build_strategy = compiled_program._build_strategy
            # print(f"Program before convert:\n {inner_program}", flush=True)
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            use_cuda_graph = False
            # When using cuda graph, the cuda graph preparation logic in PE is not
            # executed, but it is processed in the constructor of new executor.
            if (
                build_strategy is not None
                and build_strategy.allow_cuda_graph_capture
            ):
                use_cuda_graph = True
                build_strategy.allow_cuda_graph_capture = False
                set_flags({"FLAGS_new_executor_use_cuda_graph": True})
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            compiled_program._compile(scope, place)
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            if use_cuda_graph:
                build_strategy.allow_cuda_graph_capture = True
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            ir_graph = framework.IrGraph(compiled_program._graph)
            converted_program = ir_graph.to_program()

            if hasattr(inner_program, 'lr_sheduler'):
                converted_program.lr_sheduler = inner_program.lr_sheduler

            inner_program = converted_program
            # print(f"Program after convert:\n {inner_program}", flush=True)
        else:
            build_strategy = None
            from paddle.incubate.autograd import prim_enabled, prim2orig
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            if prim_enabled() and program == default_main_program():
                prim2orig()

            inner_program = program

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        program = _add_feed_fetch_ops(
            program=inner_program,
            feed=feed,
            fetch_list=fetch_list,
            feed_var_name=feed_var_name,
            fetch_var_name=fetch_var_name,
            use_fetch_v2=True,
        )
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        # standalone executor will apply buffer_shared_inplace_pass and
        # inplace_addto_op_pass to program according to build_strategy
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        enable_inplace = (
            True
            if build_strategy is None or build_strategy.enable_inplace
            else False
        )
        enable_addto = (
            True
            if build_strategy is not None and build_strategy.enable_addto
            else False
        )
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        if enable_inplace or enable_addto:
            # inplace should skip feed and fetch var
            skip_var_names = eval(_get_program_cache_key(feed, fetch_list))
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            _apply_inplace_addto_pass(
                program, enable_inplace, enable_addto, skip_var_names
            )
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        new_program = program.clone()
        new_exe = _StandaloneExecutor(place, new_program, scope)
        return new_program, new_exe
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class Executor:
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    """
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    :api_attr: Static Graph

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    An Executor in Python, supports single/multiple-GPU running,
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    and single/multiple-CPU running.
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    Args:
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        place(paddle.CPUPlace()|paddle.CUDAPlace(n)|str|None): This parameter represents
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            which device the executor runs on. When this parameter is None, PaddlePaddle
            will set the default device according to its installation version. If Paddle
            is CPU version, the default device would be set to `CPUPlace()` . If Paddle is
            GPU version, the default device would be set to `CUDAPlace(0)` . Default is None.
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            If ``place`` is string, it can be ``cpu``, and ``gpu:x``, where ``x``
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            is the index of the GPUs. Note: users only pass one Place or None to initialize
            Executor when using multiple-cards. Other APIs will override the cards. See
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            `document for multiple-cards <https://www.paddlepaddle.org.cn/documentation/docs/en/develop/guides/01_paddle2.0_introduction/update_en.html#stand-alone-multi-card-launch>`_
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    Returns:
        Executor
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    Examples:
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        .. code-block:: python

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            import paddle
            import numpy
            import os

            # Executor is only used in static graph mode
            paddle.enable_static()

            # Set place explicitly.
            # use_cuda = True
            # place = paddle.CUDAPlace(0) if use_cuda else paddle.CPUPlace()
            # exe = paddle.static.Executor(place)

            # If you don't set place, PaddlePaddle sets the default device.
            exe = paddle.static.Executor()

            train_program = paddle.static.Program()
            startup_program = paddle.static.Program()
            with paddle.static.program_guard(train_program, startup_program):
                data = paddle.static.data(name='X', shape=[None, 1], dtype='float32')
                hidden = paddle.static.nn.fc(data, 10)
                loss = paddle.mean(hidden)
                paddle.optimizer.SGD(learning_rate=0.01).minimize(loss)

            # Run the startup program once and only once.
            # Not need to optimize/compile the startup program.
            exe.run(startup_program)

            # Run the main program directly without compile.
            x = numpy.random.random(size=(10, 1)).astype('float32')
            loss_data, = exe.run(train_program, feed={"X": x}, fetch_list=[loss.name])

            # Or, compiled the program and run. See `CompiledProgram`
            # for more details.
            # NOTE: If you use CPU to run the program or Paddle is
            # CPU version, you need to specify the CPU_NUM, otherwise,
            # PaddlePaddle will use all the number of the logic core as
            # the CPU_NUM, in that case, the batch size of the input
            # should be greater than CPU_NUM, if not, the process will be
            # failed by an exception.

            # Set place explicitly.
            # if not use_cuda:
            #     os.environ['CPU_NUM'] = str(2)

            # If you don't set place and PaddlePaddle is CPU version
            os.environ['CPU_NUM'] = str(2)

            compiled_prog = paddle.static.CompiledProgram(
                train_program).with_data_parallel(loss_name=loss.name)
            loss_data, = exe.run(compiled_prog, feed={"X": x}, fetch_list=[loss.name])

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    """

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    def __init__(self, place=None):
        if place is None:
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            expected_place = framework._current_expected_place()
            self.place = expected_place
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        else:
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            self.place = framework._get_paddle_place(place)
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        self.program_caches = dict()
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        self.ctx_caches = dict()
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        self.trainer_caches = dict()
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        self.scope_caches = dict()
        self.var_caches = dict()
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        self.pruned_program_caches = dict()
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        p = core.Place()
        p.set_place(self.place)
        self._default_executor = core.Executor(p)
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        self._closed = False
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        self.pruned_program_scope_caches = dict()
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        self._prepare_to_run_called = False
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        self._auto_checkpoint_name = unique_name.generate(
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            "__auto_checkpoint_executor__"
        )
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        # NOTE: Whether to use experimental executor `StandaloneExecutor`.
        self._enable_interpreter_core = _is_enable_standalone_executor()
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        self._executor_cache = _ExecutorCache()
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        self._fleet_executor = None
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        # TODO(liyurui): This option will be removed and always true when the functionality
        # of fleet executor with standalone executor is ready.
        self._fleet_executor_with_standalone = False
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    def __del__(self):
        # NOTE(Ruibiao): The manually call of clear is required. Because in Python, executor_cache
        # may not immediately destructed after Executor instance deleted (so does not the _StandaloneExecutor),
        # that brings errors to mkl-dnn unit tests (see ClearMKLDNNCache in interpretercore.cc for why).
        self._executor_cache.clear()

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    def _get_scope_cache(self, program_cache_key):
        return self.scope_caches.get(program_cache_key, None)

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    def _get_ctx_cache(self, program_cache_key):
        return self.ctx_caches.get(program_cache_key, None)

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    def _get_trainer_cache(self, program_cache_key):
        return self.trainer_caches.get(program_cache_key, None)

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    def _get_program_cache(self, program_cache_key):
        return self.program_caches.get(program_cache_key, None)

    def _add_program_cache(self, program_cache_key, program):
        self.program_caches[program_cache_key] = program

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    def _get_pruned_program_cache(self, program_cache_key):
        return self.pruned_program_caches.get(program_cache_key, None)

    def _add_pruned_program_cache(self, program_cache_key, program):
        self.pruned_program_caches[program_cache_key] = program

    def _get_pruned_program_scope_cache(self, program_cache_key):
        return self.pruned_program_scope_caches.get(program_cache_key, None)

    def _add_pruned_program_scope_cache(self, program_cache_key, program):
        self.pruned_program_scope_caches[program_cache_key] = program

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    def _add_ctx_cache(self, ctx_cache_key, ctx):
        self.ctx_caches[ctx_cache_key] = ctx

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    def _add_trainer_cache(self, trainer_cache_key, ctx):
        self.trainer_caches[trainer_cache_key] = ctx

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    def _add_scope_cache(self, scope_cache_key, scope):
        self.scope_caches[scope_cache_key] = scope

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    # just for testing, will be removed later
    @lru_cache()
    def _log_force_set_program_cache(self, use_program_cache):
        logging.warning(
            f"use_program_cache is force set to {use_program_cache} by FLAGS_FORCE_USE_PROGRAM_CACHE"
        )

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    def _feed_data(self, program, feed, feed_var_name, scope):
        # feed var to framework
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        global_block = program.global_block()
        for op in global_block.ops:
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            if op.desc.type() == 'feed':
                feed_target_name = op.desc.output('Out')[0]
                cur_feed = feed[feed_target_name]
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                var = global_block.var(feed_target_name)
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                if var.dtype != core.VarDesc.VarType.STRINGS:
                    if not isinstance(cur_feed, core.LoDTensor):
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                        cur_feed = _as_lodtensor(
                            cur_feed, self.place, var.dtype
                        )
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                    check_feed_shape_type(var, cur_feed)
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                idx = op.desc.attr('col')
                core.set_feed_variable(scope, cur_feed, feed_var_name, idx)
            else:
                break

    def _fetch_data(self, fetch_list, fetch_var_name, scope):
        outs = [
            core.get_fetch_variable(scope, fetch_var_name, i)
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            for i in range(len(fetch_list))
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        ]
        return outs

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    @classmethod
    def _split_optimize_ops_in_fetch_list(cls, fetch_list):
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        """
        Split optimize_ops from fetch_list, which provided to specify program prunning.
        Args:
            fetch_list(list): The original fetch_list.
            Possible types of fetch_list are:
                fetch_list = ['loss']
                fetch_list = [[sgd, sgd], 'loss']
                fetch_list = [([sgd, sgd], [(param, grad)]), 'loss']

        Returns:
            optimize_ops(list): The optimize operators splited from fetch_list.
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            fetch_list(list):  The updated fetch_list which does not contain optimize operators.
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        """
        _optimize_ops = []
        _fetch_list = []

        def _get_targets(_optimize_ops, _fetch_list, item):
            if isinstance(item, Operator):
                if item._is_optimize_op():
                    _optimize_ops.append(item)
                else:
                    raise TypeError(
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                        "The operator in fetch_list is not an optimize_op"
                    )
            elif (
                isinstance(item, Variable)
                or isinstance(item, str)
                or isinstance(item, str)
            ):
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                _fetch_list.append(item)
            else:
                raise TypeError(
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                    "The item in fetch_list should be str, variable or optimize_op, but received %s.",
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                    type(item),
                )
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        for index, item in enumerate(fetch_list):
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            # NOTE(zhiqiu): to support (optimizer_ops, param_and_grads) and optimizer_ops in fetch_list
            # we should handle tuple and list in fetch_list.
            # TODO(zhiqiu): find a better way to handle that.
            if isinstance(item, list):
                for i in item:
                    _get_targets(_optimize_ops, _fetch_list, i)
            elif isinstance(item, tuple):
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                if not isinstance(item[0], (list, tuple)):
                    raise TypeError(
1153 1154 1155 1156
                        "Requires fetch_list[{}][0] shall be one of (list, tuple) when type(fetch_list[{}]) is `tuple`, but received fetch_list[{}][0]'s type is `{}`.".format(
                            index, index, index, type(item[0]).__name__
                        )
                    )
1157 1158 1159 1160 1161 1162 1163
                for i in item[0]:
                    _get_targets(_optimize_ops, _fetch_list, i)
            else:
                _get_targets(_optimize_ops, _fetch_list, item)

        return _fetch_list, _optimize_ops

1164
    @classmethod
1165 1166 1167
    def _prune_program(
        cls, program, feed=None, fetch_list=None, optimize_ops=None
    ):
1168 1169
        """
        Prune operators and variables which are not needed to generate
1170 1171 1172
        :code:`fetch_list` and optimize operators.
        Prune operators and variables which are needed
        to generate variables to be feeded.
1173 1174

        Notes: This is a very low level API. Users should not use this API
1175
        directly.
1176 1177 1178 1179 1180 1181 1182 1183 1184 1185 1186 1187 1188 1189 1190 1191 1192 1193 1194 1195 1196 1197 1198 1199 1200 1201 1202 1203 1204 1205 1206 1207 1208 1209 1210 1211 1212 1213 1214 1215 1216 1217 1218 1219 1220 1221 1222 1223 1224 1225

        Args:
            program(Program): the origin program
            feed(list|dict): feed dict or list.
            fetch_list(list|Variable): A list of variables need to be fetched
            optimize_ops(list[Operator]): A list of optimizer operators

        Returns:
            Program:  A new, pruned program.
        """
        compiled = isinstance(program, compiler.CompiledProgram)
        if compiled:
            if program._program:
                origin_program = program._program
            else:
                warnings.warn(
                    "The program holds no _program, maybe it is constructed by graph, which can't be pruned yet."
                )
                return
        else:
            origin_program = program

        feed_names = []
        if isinstance(feed, dict):
            feed_names = list(feed.keys())
        elif isinstance(feed, list) or isinstance(feed, tuple):
            for i, each in enumerate(feed):
                feed_names += list(each.keys())

        # if optimize_ops is [], all optimize ops in the program is used.
        if not optimize_ops:
            for block in origin_program.blocks:
                for op in block.ops:
                    if op._is_optimize_op():
                        optimize_ops.append(op)

        targets = fetch_list + optimize_ops
        pruned_program = origin_program._prune_with_input(feed_names, targets)

        if compiled:
            # for compiled program, update the underlying program, re-generate graph,
            # and reset the flag so it can be compiled again.
            program._program = pruned_program
            program._graph = core.Graph(pruned_program.desc)
            program._compiled = False
        else:
            program = pruned_program

        return program

1226 1227
    @classmethod
    def _update_feed(cls, program, feed):
1228
        """
1229
        Update the feed dict, remove the feed item which is pruned in program.
1230 1231

        Notes: This is a very low level API. Users should not use this API
1232
        directly.
1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248

        Args:
            program(Program): the pruned program.
            feed(list|dict): feed dict or list.

        Returns:
            feed:(list|dict)  updated feed.
        """
        compiled = isinstance(program, compiler.CompiledProgram)
        if compiled:
            if program._program:
                global_block = program._program.global_block()
            else:
                warnings.warn(
                    "The program holds no _program, maybe it is constructed by graph."
                )
1249
                return feed
1250 1251 1252 1253 1254 1255 1256 1257 1258
        else:
            global_block = program.global_block()

        if isinstance(feed, dict):
            for feed_name in list(feed.keys()):
                if not global_block.has_var(feed_name):
                    feed.pop(feed_name)
                    warnings.warn(
                        "The variable %s is not found in program. It is not declared or is pruned."
1259 1260
                        % feed_name
                    )
1261 1262 1263 1264 1265 1266 1267 1268

        elif isinstance(feed, list) or isinstance(feed, tuple):
            for i, each in enumerate(feed):
                for feed_name in list(each.keys()):
                    if not global_block.has_var(feed_name):
                        each.pop(feed_name)
                        warnings.warn(
                            "The variable %s is not found in program. It is not declared or is pruned."
1269 1270
                            % feed_name
                        )
1271 1272
        return feed

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    '''
    TODO(typhoonzero): Define "no longer use" meaning? Can user create
    a new Executor for the same program and run?
    TODO(panyx0718): Why ParallelExecutor doesn't have close?
    '''

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    def close(self):
        """
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        Close the executor. This interface is used for distributed training (PServers mode).
        This executor can not be used after calling the interface, because
        this interface releases resources associated with the current Trainer.
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        Returns:
            None
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        Examples:
            .. code-block:: python

1291
              import paddle
1292

1293 1294
              cpu = paddle.CPUPlace()
              exe = paddle.static.Executor(cpu)
1295 1296
              # execute training or testing
              exe.close()
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        """
1298
        if not self._closed:
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            self._closed = True
1300 1301 1302 1303
            for k, trainer_instance in self.trainer_caches.items():
                self._default_executor.release_trainer(trainer_instance)
                del trainer_instance
            self._default_executor.close()
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1305 1306 1307 1308 1309 1310 1311 1312 1313 1314
    def _run_parallel(
        self,
        program,
        scope,
        feed,
        fetch_list,
        fetch_var_name,
        return_numpy,
        return_merged,
    ):
1315
        from paddle.optimizer.lr import LRScheduler
1316

1317
        exe = program._executor
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        # TODO(zhenghuihuang): quantization uses Graph in CompiledProgram
        # instead of program. We will add support for checking Vars in Graph
        need_check_feed = program._program is not None
        if need_check_feed:
            global_block = program._program.global_block()
1323 1324 1325 1326
        if isinstance(feed, dict):
            feed_tensor_dict = dict()
            for feed_name in feed:
                feed_tensor = feed[feed_name]
1327
                var = global_block.var(feed_name) if need_check_feed else None
1328
                if not isinstance(feed_tensor, core.LoDTensor):
1329
                    # always set to CPU place, since the tensor need to be split
1330
                    # it is fast in CPU
1331 1332 1333 1334 1335
                    feed_tensor = _as_lodtensor(
                        feed[feed_name],
                        core.CPUPlace(),
                        var.dtype if var else None,
                    )
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                if need_check_feed:
1337
                    check_feed_shape_type(var, feed_tensor, exe.device_count())
1338
                feed_tensor_dict[feed_name] = feed_tensor
1339
            exe.feed_and_split_tensor_into_local_scopes(feed_tensor_dict)
1340 1341 1342 1343 1344 1345

        elif isinstance(feed, list) or isinstance(feed, tuple):
            res = list()
            for i, each in enumerate(feed):
                if not isinstance(each, dict):
                    raise TypeError(
1346 1347
                        "Each element of feed list should be a dict"
                    )
1348 1349 1350
                res_dict = dict()
                for feed_name in each:
                    tensor = each[feed_name]
1351 1352 1353
                    var = (
                        global_block.var(feed_name) if need_check_feed else None
                    )
1354
                    if not isinstance(tensor, core.LoDTensor):
1355 1356 1357 1358 1359
                        tensor = _as_lodtensor(
                            each[feed_name],
                            program._places[i],
                            var.dtype if var else None,
                        )
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                    if need_check_feed:
                        check_feed_shape_type(var, tensor)
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                    res_dict[feed_name] = tensor
                res.append(res_dict)
1364

1365
            exe.feed_tensors_into_local_scopes(res)
1366

1367 1368
        if hasattr(program._program, 'lr_sheduler'):
            lr_sheduler = program._program.lr_sheduler
1369
            assert isinstance(lr_sheduler, LRScheduler), "must be LRScheduler"
1370 1371 1372
            lr_value = lr_sheduler()
            lr_var = program._program.global_block().vars[lr_sheduler._var_name]
            lr_tensor = _as_lodtensor(lr_value, core.CPUPlace(), lr_var.dtype)
1373 1374 1375 1376 1377 1378
            if core.is_cuda_graph_capturing():
                warnings.warn(
                    "Caution!!! When capturing CUDA Graph, the learning rate scheduler would not "
                    "take any effect! Please set the learning rate manually before each batch!"
                )
            else:
1379
                exe.feed_and_split_tensor_into_local_scopes(
1380 1381
                    {lr_sheduler._var_name: lr_tensor}
                )
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        fetch_var_names = list(map(_to_name_str, fetch_list))
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        tensors = exe.run(fetch_var_names, return_merged)._move_to_list()
1385
        return as_numpy(tensors) if return_numpy else tensors
1386

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    def run(
        self,
        program=None,
        feed=None,
        fetch_list=None,
        feed_var_name='feed',
        fetch_var_name='fetch',
        scope=None,
        return_numpy=True,
        use_program_cache=False,
        return_merged=True,
        use_prune=False,
    ):
1400
        """
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        Run the specified :code:`Program` or :code:`CompiledProgram`. It should be noted that the executor
        will execute all the operators in :code:`Program` or :code:`CompiledProgram` without pruning some
        operators of the :code:`Program` or :code:`CompiledProgram` according to fetch_list. And you could
1404 1405
        specify the scope to store the :code:`Tensor` during the executor running if the scope
        is not set, the executor will use the global scope, i.e. :code:`paddle.static.global_scope()`.
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        Args:
            program(Program|CompiledProgram): This parameter represents the :code:`Program` or
                :code:`CompiledProgram` to be executed. If this parameter is not provided, that
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                parameter is None, the program will be set to :code:`paddle.static.default_main_program()`.
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                The default is None.
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            feed(list|dict): This parameter represents the input Tensors of the model.
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                If it is single card training, the feed is dict type, and if it is multi-card
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                training, the parameter feed can be dict or list of Tensors. If the
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                parameter type is dict, the data in the feed will be split and sent to
                multiple devices (CPU/GPU), that is to say, the input data will be evenly
                sent to different devices, so you should make sure the number of samples of
                the current mini-batch must be greater than the number of places;
                if the parameter type is list, those data are copied directly to each device,
                so the length of this list should be equal to the number of places.
                The default is None.
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            fetch_list(list): This parameter represents the Tensors that need to be returned
1423
                after the model runs. The default is None.
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            feed_var_name(str): This parameter represents the name of the input Tensor of
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                the feed operator. The default is "feed".
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            fetch_var_name(str): This parameter represents the name of the output Tensor of
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                the fetch operator. The default is "fetch".
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            scope(Scope): the scope used to run this program, you can switch
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                it to different scope. default is :code:`paddle.static.global_scope()`
            return_numpy(bool): This parameter indicates whether convert the fetched Tensors
                (the Tensor specified in the fetch list) to numpy.ndarray. if it is False,
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                the type of the return value is a list of :code:`LoDTensor`. The default is True.
            use_program_cache(bool): This parameter indicates whether the input :code:`Program` is cached.
                If the parameter is True, the model may run faster in the following cases:
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                the input program is :code:`paddle.static.Program`, and the parameters(program, feed Tensor name
                and fetch_list Tensor) of this interface remains unchanged during running.
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                The default is False.
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            return_merged(bool): This parameter indicates whether fetched Tensors (the Tensors
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                specified in the fetch list) should be merged according to the execution device dimension.
                If :code:`return_merged` is False, the type of the return value is a two-dimensional list
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                of :code:`Tensor` / :code:`LoDTensorArray` ( :code:`return_numpy` is False) or a two-dimensional
                list of :code:`numpy.ndarray` ( :code:`return_numpy` is True). If :code:`return_merged` is True,
                the type of the return value is an one-dimensional list of :code:`Tensor` / :code:`LoDTensorArray`
                ( :code:`return_numpy` is False) or an one-dimensional list of :code:`numpy.ndarray`
                ( :code:`return_numpy` is True). Please see Examples 2 for more details. If the lengths of fetched
                results are variant, please set :code:`return_merged` as False, which denotes that the fetched
                results will not be merged. The default is True, but it is just for the compatibility, and may
                use False as default value in the future version.
1449
            use_prune(bool): This parameter indicates whether the input :code:`Program` will be pruned.
1450
                If the parameter is True, the program will be pruned accroding to the given feed and fetch_list,
1451 1452
                which means the operators and variables in program that generate :code:`feed` and are not
                needed to generate :code:`fetch_list` will be pruned. The default is False, which means the
1453
                program will not pruned and all the operators and variables will be executed during running.
1454
                Note that if the tuple returned from :code:`Optimizer.minimize()` is passed to :code:`fetch_list`,
1455
                :code:`use_prune` will be overrided to True, and the program will be pruned.
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        Returns:

            List: The fetched result list.

        NOTES:
            1. If it is multi-card running and the feed parameter is dict type, the input data
               will be evenly sent to different cards. For example, using two GPUs to run the model,
               the input sample number is 3, that is, [0, 1, 2], the sample number on GPU0 is 1,
               that is, [0], and the sample number on GPU1 is 2, that is, [1, 2].
               If the number of samples is less than the number of devices, the program will
               throw an exception, so when running the model, you should make sure that the
               number of samples of the last batch of the data set should be greater than the
               number of CPU cores or GPU cards, if it is less than, it is recommended that
               the batch be discarded.
            2. If the number of CPU cores or GPU cards available is greater than 1, the fetch
1472 1473
               results are spliced together in dimension 0 for the same Tensor values
               (Tensors in fetch_list) on different devices.
1474

1475
        Examples:
1476
            .. code-block:: python
1477
                :name: code-example-1
1478

1479 1480
                import paddle
                import numpy
1481

1482 1483 1484 1485 1486 1487 1488 1489 1490 1491 1492
                # First create the Executor.
                paddle.enable_static()
                place = paddle.CPUPlace()  # paddle.CUDAPlace(0)
                exe = paddle.static.Executor(place)

                data = paddle.static.data(name='X', shape=[None, 1], dtype='float32')
                hidden = paddle.static.nn.fc(data, 10)
                loss = paddle.mean(hidden)
                adam = paddle.optimizer.Adam()
                adam.minimize(loss)
                i = paddle.zeros(shape=[1], dtype='int64')
1493
                array = paddle.tensor.array_write(x=loss, i=i)
1494

1495 1496
                # Run the startup program once and only once.
                exe.run(paddle.static.default_startup_program())
1497

1498 1499 1500 1501 1502
                x = numpy.random.random(size=(10, 1)).astype('float32')
                loss_val, array_val = exe.run(feed={'X': x},
                                              fetch_list=[loss.name, array.name])
                print(array_val)
                # [array([0.02153828], dtype=float32)]
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            .. code-block:: python
1505
                :name: code-example-2
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1507
                # required: gpu
1508
                import paddle
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                import numpy as np

                # First create the Executor.
1512 1513 1514
                paddle.enable_static()
                place = paddle.CUDAPlace(0)
                exe = paddle.static.Executor(place)
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1516
                data = paddle.static.data(name='X', shape=[None, 1], dtype='float32')
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                class_dim = 2
1518 1519 1520
                prediction = paddle.static.nn.fc(data, class_dim)
                loss = paddle.mean(prediction)
                adam = paddle.optimizer.Adam()
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                adam.minimize(loss)

                # Run the startup program once and only once.
1524 1525 1526 1527 1528
                exe.run(paddle.static.default_startup_program())
                build_strategy = paddle.static.BuildStrategy()
                binary = paddle.static.CompiledProgram(
                    paddle.static.default_main_program()).with_data_parallel(
                        loss_name=loss.name, build_strategy=build_strategy)
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                batch_size = 6
                x = np.random.random(size=(batch_size, 1)).astype('float32')

                # Set return_merged as False to fetch unmerged results:
1533 1534 1535 1536
                unmerged_prediction, = exe.run(binary,
                                               feed={'X': x},
                                               fetch_list=[prediction.name],
                                               return_merged=False)
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                # If the user uses two GPU cards to run this python code, the printed result will be
                # (2, 3, class_dim). The first dimension value of the printed result is the number of used
                # GPU cards, and the second dimension value is the quotient of batch_size and the
                # number of used GPU cards.
1541 1542
                print("The unmerged prediction shape: {}".format(
                    np.array(unmerged_prediction).shape))
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                print(unmerged_prediction)

                # Set return_merged as True to fetch merged results:
1546 1547 1548 1549
                merged_prediction, = exe.run(binary,
                                             feed={'X': x},
                                             fetch_list=[prediction.name],
                                             return_merged=True)
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                # If the user uses two GPU cards to run this python code, the printed result will be
                # (6, class_dim). The first dimension value of the printed result is the batch_size.
1552 1553
                print("The merged prediction shape: {}".format(
                    np.array(merged_prediction).shape))
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                print(merged_prediction)
1555

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                # Out:
                # The unmerged prediction shape: (2, 3, 2)
                # [array([[-0.37620035, -0.19752218],
                #        [-0.3561043 , -0.18697084],
                #        [-0.24129935, -0.12669306]], dtype=float32), array([[-0.24489994, -0.12858354],
                #        [-0.49041364, -0.25748932],
                #        [-0.44331917, -0.23276259]], dtype=float32)]
                # The merged prediction shape: (6, 2)
                # [[-0.37789783 -0.19921964]
                #  [-0.3577645  -0.18863106]
                #  [-0.24274671 -0.12814042]
                #  [-0.24635398 -0.13003758]
                #  [-0.49232286 -0.25939852]
                #  [-0.44514108 -0.2345845 ]]
1570

1571
        """
1572 1573
        # Temporary FLAGS, just for testing the performance of program cache
        force_use_program_cache = os.environ.get(
1574 1575
            'FLAGS_FORCE_USE_PROGRAM_CACHE', None
        )
1576 1577
        if force_use_program_cache is not None:
            use_program_cache = force_use_program_cache in [
1578 1579 1580 1581 1582
                1,
                '1',
                True,
                'True',
                'true',
1583
            ]
1584
            self._log_force_set_program_cache(use_program_cache)
1585

1586 1587 1588 1589 1590 1591 1592 1593 1594 1595 1596 1597 1598 1599
        res = self._run_impl(
            program=program,
            feed=feed,
            fetch_list=fetch_list,
            feed_var_name=feed_var_name,
            fetch_var_name=fetch_var_name,
            scope=scope,
            return_numpy=return_numpy,
            use_program_cache=use_program_cache,
            use_prune=use_prune,
            return_merged=return_merged,
        )
        core.update_autotune_status()
        return res
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1601 1602 1603 1604 1605 1606 1607 1608 1609 1610 1611 1612 1613
    def _run_impl(
        self,
        program,
        feed,
        fetch_list,
        feed_var_name,
        fetch_var_name,
        scope,
        return_numpy,
        use_program_cache,
        return_merged,
        use_prune,
    ):
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        if self._closed:
            raise RuntimeError("Attempted to use a closed Executor")

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        use_default_main_program = program is None
1618 1619
        if program is None:
            program = default_main_program()
1620

1621
        fetch_list = self._check_fetch_list(fetch_list)
1622 1623

        if isinstance(program, Program) and program._pipeline_opt:
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            if "fleet_opt" in program._pipeline_opt:
1625 1626 1627
                # Move prepare here for port conflict with nccl in startup program
                if self._fleet_executor is None:
                    self._fleet_executor = _prepare_fleet_executor()
1628 1629 1630 1631
                return self._run_using_fleet_executor(
                    program=program,
                    feed=feed,
                    fetch_list=fetch_list,
1632 1633
                    with_standalone_executor=self._fleet_executor_with_standalone,
                )
1634 1635 1636
            if "startup_program" in program._pipeline_opt:
                program = program._pipeline_opt["startup_program"]
            else:
1637 1638 1639 1640 1641
                return self._run_pipeline(
                    program,
                    fetch_list=fetch_list,
                    use_program_cache=use_program_cache,
                )
1642 1643

        if isinstance(program, Program) and program._heter_pipeline_opt:
1644
            # print("program._heter_pipeline_opt: {}".format(
1645
            #    program._heter_pipeline_opt))
1646
            ## change default executor
1647 1648 1649 1650 1651 1652
            heter_place = program._heter_pipeline_opt["heter_place"]
            heter_place = framework._get_paddle_place(heter_place)
            p = core.Place()
            p.set_place(heter_place)
            self._default_executor = core.Executor(p)
            # TODO(zhangminxu): support heterps pipeline training using exe.run
1653
            if "startup_program" in program._heter_pipeline_opt:
1654
                # print("get startup_program from _pipeline_opt")
1655 1656
                program = program._heter_pipeline_opt["startup_program"]

1657 1658 1659 1660
        if (
            isinstance(program, Program)
            and len(program.global_block().ops) == 0
        ):
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            if use_default_main_program:
1662 1663 1664 1665
                error_info = (
                    "Now you are using default_main_program, "
                    "but there are no operators in the program to be executed. "
                    "Please ensure you create model correctly or you can pass "
1666
                    "the Program or the CompiledProgram manually."
1667
                )
1668
            else:
1669 1670 1671
                error_info = (
                    "There are no operators in the program to be executed. "
                    "If you pass Program manually, please use fluid.program_guard "
1672
                    "to ensure the current Program is being used."
1673
                )
C
chengduo 已提交
1674
            warnings.warn(error_info)
1675

1676 1677
        if scope is None:
            scope = global_scope()
1678

1679 1680 1681 1682
        # use_prune can be overrided by putting optimize_ops in fetch_list
        _origin_fetch_list = fetch_list
        _origin_program = program
        fetch_list, optimize_ops = self._split_optimize_ops_in_fetch_list(
1683 1684
            fetch_list
        )
1685 1686 1687
        if optimize_ops:
            use_prune = True
        if use_prune:
1688 1689 1690
            cache_key = _get_strong_program_cache_key(
                program, feed, _origin_fetch_list
            )
1691 1692 1693 1694
            cached_pruned_program = self._get_pruned_program_cache(cache_key)
            if cached_pruned_program is None:
                if isinstance(program, compiler.CompiledProgram):
                    program_scope_cache = self._get_pruned_program_scope_cache(
1695 1696
                        str(id(_origin_program))
                    )
1697 1698 1699 1700
                    # copy the original program, so it can be cached.
                    program = copy.copy(program)
                    # share the local scopes for same original CompiledProgram.
                    program._share_vars_from = program_scope_cache
1701 1702 1703 1704 1705 1706
                    if (
                        self._get_pruned_program_scope_cache(
                            str(id(_origin_program))
                        )
                        is None
                    ):
1707
                        self._add_pruned_program_scope_cache(
1708 1709 1710 1711 1712
                            str(id(_origin_program)), program
                        )
                pruned_program = self._prune_program(
                    program, feed, fetch_list, optimize_ops
                )
1713 1714 1715 1716 1717 1718 1719
                self._add_pruned_program_cache(cache_key, pruned_program)
            else:
                pruned_program = cached_pruned_program

            feed = self._update_feed(pruned_program, feed)
            program = pruned_program

1720
        def _can_use_interpreter_core(program, place):
1721
            if core.is_compiled_with_mlu():
1722 1723
                return False

1724 1725 1726
            compiled = isinstance(
                program, compiler.CompiledProgram
            ) or isinstance(program._graph, compiler.CompiledProgram)
1727
            if compiled:
1728 1729 1730 1731 1732
                compiled_program = (
                    program
                    if isinstance(program, compiler.CompiledProgram)
                    else program._graph
                )
1733

1734
                # Unsupported case 1: data parallel
1735 1736 1737
                if (
                    compiled_program._is_data_parallel
                    and len(
1738
                        compiled_program._get_places(
1739 1740 1741 1742 1743
                            place, compiled_program._places
                        )
                    )
                    != 1
                ):
1744 1745
                    warnings.warn(
                        "Standalone executor is not used for data parallel",
1746 1747
                        UserWarning,
                    )
1748
                    return False
1749

1750
                # Unsupported case 2: parallel graph
P
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1751
                if core.globals()['FLAGS_enable_parallel_graph'] in [
1752 1753 1754 1755 1756
                    1,
                    '1',
                    True,
                    'True',
                    'true',
P
pangyoki 已提交
1757
                ]:
1758 1759
                    warnings.warn(
                        "Standalone executor is not used for parallel graph",
1760 1761
                        UserWarning,
                    )
P
pangyoki 已提交
1762 1763
                    return False

1764
                # Unsupported case 3: inference
1765
                if compiled_program._is_inference:
1766 1767
                    warnings.warn(
                        "Standalone executor is not used for inference",
1768 1769
                        UserWarning,
                    )
1770
                    return False
1771

1772
                # Unsupported case 4: async mode
1773 1774
                if (
                    compiled_program._build_strategy is not None
1775
                    and compiled_program._build_strategy.async_mode
1776
                ):
1777
                    warnings.warn(
1778
                        "Standalone executor is not used for async mode",
1779 1780
                        UserWarning,
                    )
1781 1782
                    return False

1783
                # Unsupported case 5: CUDA Graph
1784 1785
                if (
                    compiled_program._build_strategy is not None
1786 1787
                    and compiled_program._build_strategy.allow_cuda_graph_capture
                    and not _is_cuda_graph_enable_standalone_executor()
1788
                ):
1789
                    warnings.warn(
1790
                        "Standalone executor is not used for CUDA Graph when FLAGS_CUDA_GRAPH_USE_STANDALONE_EXECUTOR=0",
1791 1792
                        UserWarning,
                    )
1793
                    return False
1794
            return True
1795

1796 1797 1798 1799 1800
        if (
            return_merged
            and self._enable_interpreter_core
            and _can_use_interpreter_core(program, self.place)
        ):
1801

1802 1803 1804 1805 1806 1807 1808 1809
            if feed is None:
                feed = {}
            elif isinstance(feed, (list, tuple)):
                assert len(feed) == 1, "Not compiled with data parallel"
                feed = feed[0]
            if not isinstance(feed, dict):
                raise TypeError(
                    "feed requires dict as its Parameter. But you passed in %s"
1810 1811
                    % (type(feed))
                )
1812 1813 1814
            feed = self._update_feed(program, feed)

            program, new_exe = self._executor_cache.get_program_and_executor(
1815 1816 1817 1818 1819 1820 1821 1822
                program,
                feed,
                fetch_list,
                feed_var_name,
                fetch_var_name,
                self.place,
                scope,
            )
1823 1824 1825 1826

            self._feed_data(program, feed, feed_var_name, scope)
            if hasattr(program, 'lr_sheduler'):
                from paddle.optimizer.lr import LRScheduler
1827 1828 1829 1830

                assert isinstance(
                    program.lr_sheduler, LRScheduler
                ), "must be LRScheduler"
1831 1832 1833 1834 1835 1836 1837
                lr_sheduler = program.lr_sheduler
                lr_value = lr_sheduler()
                lr_var = program.global_block().vars[lr_sheduler._var_name]
                data = np.array([lr_value]).astype(convert_dtype(lr_var.dtype))
                tensor = core.get_variable_tensor(scope, lr_sheduler._var_name)
                # NOTE(dev): `tensor.set(data, self.place)` always call TensorCopySync that is a blocking behavior. So we use `_copy_from` to replace it.
                cpu_tensor = _as_lodtensor(data, core.CPUPlace())
1838 1839 1840 1841 1842 1843 1844
                if core.is_cuda_graph_capturing():
                    warnings.warn(
                        "Caution!!! When capturing CUDA Graph, the learning rate scheduler would not "
                        "take any effect! Please set the learning rate manually before each batch!"
                    )
                elif core.is_compiled_with_ipu():
                    # for ipu, tensor is allocated on cpu
1845 1846 1847 1848
                    tensor._copy_from(cpu_tensor, tensor._place())
                else:
                    tensor._copy_from(cpu_tensor, self.place)

1849 1850 1851
            return new_exe.run(
                scope, list(feed.keys()), fetch_list, return_numpy
            )
1852

X
polish  
Xin Pan 已提交
1853
        compiled = isinstance(program, compiler.CompiledProgram)
H
Huihuang Zheng 已提交
1854

1855 1856 1857 1858 1859 1860 1861
        # Check if fluid.data() variable no feed data
        if use_prune:
            if compiled:
                global_block = program._program.global_block()
            else:
                global_block = program.global_block()
            for varname in global_block.vars:
1862
                vardesc = global_block.desc.find_var(varname.encode())
1863 1864
                varobj = global_block.vars[varname]

1865 1866 1867 1868 1869 1870 1871 1872 1873
                if (
                    vardesc.persistable() == False
                    and vardesc.type() == core.VarDesc.VarType.LOD_TENSOR
                    and vardesc.need_check_feed() == True
                    and varobj.stop_gradient == True
                    and varobj.is_data == True
                    and varobj.belong_to_optimizer == False
                    and varname not in feed
                ):
1874 1875
                    raise ValueError('Need feed data for variable %s' % varname)

1876 1877
        acp._auto_checkpoint(self, program)

X
polish  
Xin Pan 已提交
1878
        # For backward compatibility, run directly.
1879
        if not compiled:
1880
            # In distributed training, the compiled program is saved in Program._graph
1881 1882 1883
            has_compiled_graph = isinstance(
                program._graph, compiler.CompiledProgram
            )
1884

1885 1886 1887 1888 1889
            if has_compiled_graph:
                program._graph._compile(scope, self.place)
                # _graph in program does not support inference since the _graph is optimized
                # through optimizer.minimize function and should not be used as inference graph
                # assert not program._graph._is_inference
1890 1891 1892 1893 1894 1895 1896 1897 1898 1899 1900 1901 1902 1903 1904 1905 1906 1907 1908 1909
                return self._run_parallel(
                    program._graph,
                    scope=scope,
                    feed=feed,
                    fetch_list=fetch_list,
                    fetch_var_name=fetch_var_name,
                    return_numpy=return_numpy,
                    return_merged=return_merged,
                )

            return self._run_program(
                program,
                feed=feed,
                fetch_list=fetch_list,
                feed_var_name=feed_var_name,
                fetch_var_name=fetch_var_name,
                scope=scope,
                return_numpy=return_numpy,
                use_program_cache=use_program_cache,
            )
1910 1911

        program._compile(scope, self.place)
C
chengduo 已提交
1912 1913 1914
        if program._is_inference:
            return self._run_inference(program._executor, feed)
        else:
1915 1916 1917 1918 1919 1920 1921 1922 1923 1924 1925 1926 1927 1928 1929 1930 1931 1932 1933 1934 1935
            return self._run_parallel(
                program,
                scope=scope,
                feed=feed,
                fetch_list=fetch_list,
                fetch_var_name=fetch_var_name,
                return_numpy=return_numpy,
                return_merged=return_merged,
            )

    def _run_program(
        self,
        program,
        feed,
        fetch_list,
        feed_var_name,
        fetch_var_name,
        scope,
        return_numpy,
        use_program_cache,
    ):
1936
        from paddle.optimizer.lr import LRScheduler
1937

1938 1939
        if feed is None:
            feed = {}
S
sneaxiy 已提交
1940 1941 1942 1943
        elif isinstance(feed, (list, tuple)):
            assert len(feed) == 1, "Not compiled with data parallel"
            feed = feed[0]

Q
qiaolongfei 已提交
1944
        if not isinstance(feed, dict):
D
dzhwinter 已提交
1945
            raise TypeError(
1946 1947 1948
                "feed requires dict as its Parameter. But you passed in %s"
                % (type(feed))
            )
Y
Yu Yang 已提交
1949

1950
        assert program is not None, "The program should not be Empty"
Y
Yu Yang 已提交
1951
        if not isinstance(program, Program):
D
dzhwinter 已提交
1952 1953
            raise TypeError(
                "Executor requires Program as its Parameter. But you passed in %s"
1954 1955
                % (type(program))
            )
Y
Yu Yang 已提交
1956

1957 1958 1959
        if not isinstance(fetch_var_name, str):
            raise TypeError(
                "The name of fetch variable requires string as its Parameter. But you passed in %s"
1960 1961
                % (type(fetch_var_name))
            )
1962

1963
        if use_program_cache:
1964
            cache_key = _get_strong_program_cache_key(program, feed, fetch_list)
Q
Qiao Longfei 已提交
1965
            cached_program = self._get_program_cache(cache_key)
1966
            cached_ctx = self._get_ctx_cache(cache_key)
1967
            cached_scope = self._get_scope_cache(cache_key)
Q
Qiao Longfei 已提交
1968
            if cached_program is None:
R
Ruibiao Chen 已提交
1969
                cached_program = _add_feed_fetch_ops(
Q
Qiao Longfei 已提交
1970 1971 1972 1973
                    program=program,
                    feed=feed,
                    fetch_list=fetch_list,
                    feed_var_name=feed_var_name,
1974 1975
                    fetch_var_name=fetch_var_name,
                )
Q
Qiao Longfei 已提交
1976
                self._add_program_cache(cache_key, cached_program)
1977
                fetch_list_str = list(map(_to_name_str, fetch_list))
1978
                cached_ctx = self._default_executor.prepare(
1979 1980
                    cached_program.desc, 0, fetch_list_str, False
                )
1981 1982 1983 1984 1985 1986
                # currently, we cache program, vars, sub_scope here
                # we suppose that in a life cycle of training, a user
                # will not create many programs. So, here the basic
                # rule of caching is to cache all unseen (program, var, scope)
                # when a user use use_program_cache.
                cached_scope = scope.new_scope()
1987 1988 1989
                self._default_executor.create_variables(
                    cached_program.desc, cached_scope, 0
                )
1990
                self._add_ctx_cache(cache_key, cached_ctx)
1991
                self._add_scope_cache(cache_key, cached_scope)
Q
Qiao Longfei 已提交
1992
            program = cached_program
1993
            ctx = cached_ctx
1994
            scope = cached_scope
1995
        else:
1996 1997 1998 1999 2000 2001 2002
            program = _add_feed_fetch_ops(
                program=program,
                feed=feed,
                fetch_list=fetch_list,
                feed_var_name=feed_var_name,
                fetch_var_name=fetch_var_name,
            )
Q
Qiao Longfei 已提交
2003 2004

        self._feed_data(program, feed, feed_var_name, scope)
2005
        if hasattr(program, 'lr_sheduler'):
2006 2007 2008
            assert isinstance(
                program.lr_sheduler, LRScheduler
            ), "must be LRScheduler"
2009 2010 2011 2012 2013 2014 2015
            lr_sheduler = program.lr_sheduler
            lr_value = lr_sheduler()
            lr_var = program.global_block().vars[lr_sheduler._var_name]
            data = np.array([lr_value]).astype(convert_dtype(lr_var.dtype))
            tensor = core.get_variable_tensor(scope, lr_sheduler._var_name)
            tensor.set(data, self.place)

2016
        if not use_program_cache:
2017 2018 2019
            self._default_executor.run(
                program.desc, scope, 0, True, True, [fetch_var_name]
            )
2020
        else:
2021 2022 2023
            self._default_executor.run_prepared_ctx(
                ctx, scope, False, False, False
            )
2024
        arr = scope.find_var(fetch_var_name).get_fetch_list()
2025
        tensors = arr._move_to_list()
D
dzhwinter 已提交
2026
        if return_numpy:
2027 2028 2029
            return as_numpy(tensors)
        else:
            return tensors
F
flame 已提交
2030

X
Xin Pan 已提交
2031 2032
    def _run_inference(self, exe, feed):
        return exe.run(feed)
D
dongdaxiang 已提交
2033

2034
    def _check_fetch_list(self, fetch_list):
2035
        is_fetch_var = lambda var: isinstance(var, (Variable, str))
2036 2037
        is_tuple_list = lambda var: isinstance(var, (tuple, list))

2038 2039 2040 2041
        if fetch_list is None:
            return []
        if is_fetch_var(fetch_list):
            return [fetch_list]
2042

2043 2044 2045
        assert is_tuple_list(fetch_list), (
            "Currently , The fetch_list type only should be list or tuple, \n"
            "but the input type is {}. For more information please refer to \n"
2046
            "the executor.run(...).".format(type(fetch_list))
2047
        )
2048 2049 2050 2051 2052 2053 2054 2055 2056 2057 2058 2059 2060

        res = []
        for i, var in enumerate(fetch_list):
            if is_fetch_var(var):
                res.append(var)
            # such as [x, 'mean_out', loss]
            elif is_tuple_list(var):
                if all(is_fetch_var(v) for v in var):
                    res.extend(list(var))
                else:
                    res.append(var)
            else:
                raise TypeError(
2061 2062 2063 2064
                    "Require fetch_list[{}] 's type shall be one of (Variable, str), but received {}.".format(
                        i, type(var).__name__
                    )
                )
2065 2066 2067

        return res

2068
    def _dump_debug_info(self, program=None, trainer=None):
Z
ziyoujiyi 已提交
2069 2070
        with open(str(id(program)) + "_train_desc.prototxt", "w") as fout:
            fout.write(str(trainer))
2071
        if program._fleet_opt and "fleet_desc" in program._fleet_opt:
2072 2073 2074
            with open("fleet_desc.prototxt", "w") as fout:
                fout.write(str(program._fleet_opt["fleet_desc"]))

2075 2076 2077 2078 2079 2080
    def _adjust_pipeline_resource(self, pipeline_opt, dataset, pipeline_num):
        filelist_length = len(dataset.dataset.get_filelist())
        if filelist_length < pipeline_num:
            pipeline_num = filelist_length
            print(
                "Pipeline training: setting the pipeline num to %d is enough because there are only %d files"
2081 2082
                % (filelist_length, filelist_length)
            )
2083 2084 2085
        if filelist_length < pipeline_num * pipeline_opt["concurrency_list"][0]:
            print(
                "Pipeline training: setting the 1st element in concurrency_list to %d is enough because there are only %d files"
2086 2087 2088 2089 2090
                % (filelist_length // pipeline_num, filelist_length)
            )
            pipeline_opt["concurrency_list"][0] = (
                filelist_length // pipeline_num
            )
2091 2092 2093
        dataset.set_thread(pipeline_opt["concurrency_list"][0] * pipeline_num)
        return pipeline_num

2094 2095 2096 2097 2098 2099 2100 2101 2102 2103 2104
    def _prepare_trainer(
        self,
        program=None,
        dataset=None,
        scope=None,
        thread=0,
        debug=False,
        fetch_list=None,
        fetch_info=None,
        print_period=100,
    ):
T
Thunderbrook 已提交
2105
        is_heter = 0
T
Thunderbrook 已提交
2106
        use_ps_gpu = 0
T
Thunderbrook 已提交
2107 2108 2109
        if not program._fleet_opt is None:
            if program._fleet_opt.get("worker_class", "") == "HeterCpuWorker":
                is_heter = 1
T
Thunderbrook 已提交
2110
            if program._fleet_opt.get("trainer", "") == "HeterXpuTrainer":
T
Thunderbrook 已提交
2111
                is_heter = 1
T
Thunderbrook 已提交
2112 2113
            if program._fleet_opt.get("use_ps_gpu", False):
                use_ps_gpu = True
D
dongdaxiang 已提交
2114 2115 2116 2117
        if scope is None:
            scope = global_scope()
        if fetch_list is None:
            fetch_list = []
D
dongdaxiang 已提交
2118 2119 2120
        if fetch_info is None:
            fetch_info = []
        assert len(fetch_list) == len(fetch_info)
D
dongdaxiang 已提交
2121
        compiled = isinstance(program, compiler.CompiledProgram)
T
Thunderbrook 已提交
2122 2123 2124
        if is_heter:
            from paddle.fluid.incubate.fleet.parameter_server.pslib import fleet
            from paddle.fluid.incubate.fleet.utils.fleet_util import FleetUtil
2125

T
Thunderbrook 已提交
2126 2127
            fu = FleetUtil()
            ret = fu.split_program_by_device(program)
D
dongdaxiang 已提交
2128
        if not compiled:
H
hutuxian 已提交
2129 2130 2131
            # TODO: Need a better way to distinguish and specify different execution mode
            if program._pipeline_opt:
                trainer = TrainerFactory()._create_trainer(
2132 2133
                    program._pipeline_opt
                )
2134 2135
            elif program._heter_pipeline_opt:
                trainer = TrainerFactory()._create_trainer(
2136 2137
                    program._heter_pipeline_opt
                )
H
hutuxian 已提交
2138 2139
            else:
                trainer = TrainerFactory()._create_trainer(program._fleet_opt)
2140
                trainer._set_thread_barrier(program._is_distributed)
2141
            trainer._set_program(program)
T
Thunderbrook 已提交
2142 2143
            if is_heter:
                trainer._set_heter_info(ret)
2144
        else:
H
hutuxian 已提交
2145 2146
            if program._pipeline_opt:
                trainer = TrainerFactory()._create_trainer(
2147 2148
                    program.program._pipeline_opt
                )
2149 2150
            elif program._heter_pipeline_opt:
                trainer = TrainerFactory()._create_trainer(
2151 2152
                    program.program._heter_pipeline_opt
                )
H
hutuxian 已提交
2153 2154
            else:
                trainer = TrainerFactory()._create_trainer(
2155 2156
                    program.program._fleet_opt
                )
2157
            trainer._set_program(program.program)
H
hutuxian 已提交
2158

2159
        if thread <= 0:
T
Thunderbrook 已提交
2160 2161 2162
            if use_ps_gpu:
                trainer._set_thread(len(program._fleet_opt["worker_places"]))
            elif dataset.thread_num <= 0:
D
dongdaxiang 已提交
2163
                raise RuntimeError(
2164
                    "You should set thread num first, either in Dataset"
2165 2166
                    "or in Executor.train_from_dataset"
                )
D
dongdaxiang 已提交
2167
            else:
2168
                trainer._set_thread(dataset.thread_num)
2169
        else:
2170
            trainer._set_thread(thread)
H
hutuxian 已提交
2171

2172 2173
        trainer._set_debug(debug)
        trainer._set_fetch_var_and_info(fetch_list, fetch_info, print_period)
2174
        return scope, trainer
2175

2176 2177 2178 2179 2180 2181 2182 2183 2184 2185 2186 2187 2188
    def _run_from_dataset(
        self,
        program=None,
        dataset=None,
        scope=None,
        thread=0,
        is_infer=False,
        debug=False,
        fetch_list=None,
        fetch_info=None,
        print_period=100,
        fetch_handler=None,
    ):
2189 2190
        if program._pipeline_opt is not None:
            import paddle
2191

2192 2193
            if dataset is not None:
                raise RuntimeError("dataset should be None for pipeline mode")
2194
            # The following fake dataset is created to call
2195 2196 2197 2198 2199
            # the _prepare_trainer api, and it is meaningless.
            data_vars = []
            for var in program.global_block().vars.values():
                if var.is_data:
                    data_vars.append(var)
2200 2201
            if core.is_compiled_with_npu():
                dataset = paddle.fluid.DatasetFactory().create_dataset(
2202 2203
                    'InMemoryDataset'
                )
2204 2205
            else:
                dataset = paddle.fluid.DatasetFactory().create_dataset(
2206 2207
                    'FileInstantDataset'
                )
2208 2209 2210 2211
            dataset.set_batch_size(1)
            dataset.set_thread(1)
            dataset.set_filelist(['None'])
            dataset.set_use_var(data_vars)
2212 2213
        elif program._heter_pipeline_opt is not None:
            stage_id = program._heter_pipeline_opt["pipeline_stage"]
2214
            # print("test_fl_stage_id: {}".format(stage_id))
2215
            heter_place = program._heter_pipeline_opt["heter_place"]
2216
            if stage_id != 0:
2217 2218
                if "is_fl_mode" not in program._heter_pipeline_opt:
                    import paddle
2219

2220 2221
                    if dataset is not None:
                        raise RuntimeError(
2222 2223
                            "dataset should be None for heter pipeline mode"
                        )
2224
                    # The following fake dataset is created to call
2225 2226 2227 2228 2229 2230
                    # the _prepare_trainer api, and it is meaningless.
                    data_vars = []
                    for var in program.global_block().vars.values():
                        if var.is_data:
                            data_vars.append(var)
                    dataset = paddle.fluid.DatasetFactory().create_dataset(
2231 2232
                        'InMemoryDataset'
                    )
2233 2234 2235 2236
                    dataset.set_batch_size(1)
                    dataset.set_thread(1)
                    dataset.set_filelist(['None'])
                    dataset.set_use_var(data_vars)
2237 2238 2239
            else:
                if dataset is None:
                    raise RuntimeError(
2240 2241
                        "dataset is need and should be initialized"
                    )
2242 2243 2244 2245 2246
            ## change default executor
            heter_place = framework._get_paddle_place(heter_place)
            p = core.Place()
            p.set_place(heter_place)
            self._default_executor = core.Executor(p)
2247 2248 2249
        else:
            if dataset is None:
                raise RuntimeError("dataset is need and should be initialized")
2250 2251

        dataset._prepare_to_run()
2252 2253
        real_fetch_list = []
        if program._pipeline_opt:
2254
            real_program = program._pipeline_opt["section_program"]
2255 2256 2257 2258 2259 2260 2261 2262
            for fetch_var in fetch_list:
                if isinstance(fetch_var, Variable):
                    fetch_var_name = fetch_var.name
                else:
                    fetch_var_name = fetch_var
                if fetch_var_name in real_program.global_block().vars:
                    real_fetch_list.append(fetch_var)

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            program._pipeline_opt["section_program"] = _add_feed_fetch_ops(
2264 2265 2266 2267
                program=program._pipeline_opt["section_program"],
                feed=[],
                fetch_list=real_fetch_list,
                feed_var_name='feed',
2268 2269
                fetch_var_name='fetch',
            )
2270 2271 2272 2273 2274 2275 2276
            main_block = program._pipeline_opt["section_program"].block(0)
            for op in main_block.ops:
                # set the op_role of fetch op to Optimize to avoid
                # erase the fetched vars by gc for pipeline
                if op.type == 'fetch':
                    op._set_attr(
                        'op_role',
2277 2278
                        core.op_proto_and_checker_maker.OpRole.Optimize,
                    )
2279
            fetch_list = None
2280 2281 2282 2283 2284 2285 2286 2287 2288 2289
        scope, trainer = self._prepare_trainer(
            program=program,
            dataset=dataset,
            scope=scope,
            thread=thread,
            debug=debug,
            fetch_list=fetch_list,
            fetch_info=fetch_info,
            print_period=print_period,
        )
2290 2291 2292 2293

        trainer._set_infer(is_infer)
        trainer._gen_trainer_desc()

2294
        if program._pipeline_opt is None:
2295 2296
            if program._heter_pipeline_opt is None:
                self._dump_debug_info(program=program, trainer=trainer)
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        # warning if dataset not set psgpu in psgpu mode
        if dataset.use_ps_gpu is False and trainer.proto_desc.use_ps_gpu:
            logging.warning("dataset should call set_use_ps_gpu in PsGpu mode")
2300

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        dataset._dynamic_adjust_before_train(trainer.proto_desc.thread_num)
2302

2303
        if program._heter_pipeline_opt is None:
2304 2305 2306 2307 2308
            trainer_instance = (
                self._default_executor.init_for_dataset(  # -->InitForDataset
                    program.desc, trainer._desc(), scope, dataset.dataset
                )
            )
2309 2310
        else:
            # cache trainer instance for heterps pipeline training
2311
            if fetch_list is None:
2312 2313 2314 2315 2316
                fetch_list = []
            cache_key = _get_strong_program_cache_key(program, None, fetch_list)
            trainer_instance = self._get_trainer_cache(cache_key)
            if trainer_instance is None:
                trainer_instance = self._default_executor.init_for_dataset(
2317 2318 2319
                    program.desc, trainer._desc(), scope, dataset.dataset
                )
                # print("test_fl_ps - trainer_desc: {}\n".format(trainer))
2320 2321 2322
                self._add_trainer_cache(cache_key, trainer_instance)
            else:
                trainer_instance.ResetDataset(dataset.dataset)
2323

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2324 2325 2326 2327 2328 2329
        if fetch_handler is not None:
            scope0 = trainer_instance.get_worker_scope(0)
            fetch_monitor = FetchHandlerMonitor(scope0, fetch_handler)
            fetch_monitor.start()
            self._default_executor.run_from_dataset(trainer_instance)
            fetch_monitor.stop()
2330 2331
            if program._heter_pipeline_opt is None:
                self._default_executor.release_trainer(trainer_instance)
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2332 2333
        else:
            self._default_executor.run_from_dataset(trainer_instance)
2334 2335
            if program._heter_pipeline_opt is None:
                self._default_executor.release_trainer(trainer_instance)
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2336 2337

        dataset._dynamic_adjust_after_train()
2338
        dataset._finish_to_run()
2339 2340 2341 2342
        if real_fetch_list:
            arr = scope.find_var('fetch').get_fetch_list()
            tensors = arr._move_to_list()
            return as_numpy(tensors)
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2343

2344 2345
        return None

2346 2347 2348 2349 2350 2351 2352 2353 2354 2355 2356 2357 2358 2359
    def _prepare_pipeline_ctx(
        self,
        program=None,
        dataset=None,
        scope=None,
        thread=0,
        is_infer=False,
        debug=False,
        fetch_list=None,
        fetch_info=None,
        print_period=100,
        fetch_handler=None,
        use_program_cache=False,
    ):
2360 2361 2362 2363 2364 2365 2366 2367 2368 2369 2370 2371 2372 2373 2374 2375 2376 2377 2378
        assert program._pipeline_opt is not None
        assert dataset is None, "dataset should be None for pipeline mode"

        cache_key = _get_strong_program_cache_key(program, None, fetch_list)
        ctx = self._get_ctx_cache(cache_key)
        if use_program_cache and ctx is not None:
            return ctx

        import paddle

        # The following fake dataset is created to call
        # the _prepare_trainer api, and it is meaningless.
        def _get_dataset():
            data_vars = []
            for var in program.global_block().vars.values():
                if var.is_data:
                    data_vars.append(var)
            if core.is_compiled_with_npu():
                dataset = paddle.fluid.DatasetFactory().create_dataset(
2379 2380
                    'InMemoryDataset'
                )
2381 2382
            else:
                dataset = paddle.fluid.DatasetFactory().create_dataset(
2383 2384
                    'FileInstantDataset'
                )
2385 2386 2387 2388 2389 2390 2391 2392 2393 2394 2395 2396 2397 2398 2399 2400 2401 2402 2403 2404
            dataset.set_batch_size(1)
            dataset.set_thread(1)
            dataset.set_filelist(['None'])
            dataset.set_use_var(data_vars)
            dataset._prepare_to_run()
            return dataset

        dataset = _get_dataset()

        def _get_real_program_fetch_list():
            real_program = program._pipeline_opt["section_program"]
            real_fetch_list = []
            for fetch_var in fetch_list:
                if isinstance(fetch_var, Variable):
                    fetch_var_name = fetch_var.name
                else:
                    fetch_var_name = fetch_var
                if fetch_var_name in real_program.global_block().vars:
                    real_fetch_list.append(fetch_var)

2405 2406 2407 2408 2409 2410 2411
            real_program = _add_feed_fetch_ops(
                program=real_program,
                feed=[],
                fetch_list=real_fetch_list,
                feed_var_name='feed',
                fetch_var_name='fetch',
            )
2412 2413 2414 2415 2416 2417 2418
            main_block = real_program.block(0)
            for op in main_block.ops:
                # set the op_role of fetch op to Optimize to avoid
                # erase the fetched vars by gc for pipeline
                if op.type == 'fetch':
                    op._set_attr(
                        'op_role',
2419 2420
                        core.op_proto_and_checker_maker.OpRole.Optimize,
                    )
2421 2422 2423 2424 2425 2426 2427
            return real_program, real_fetch_list

        real_program, real_fetch_list = _get_real_program_fetch_list()

        program._pipeline_opt["section_program"] = real_program
        fetch_list = None

2428 2429 2430 2431 2432 2433 2434 2435 2436 2437
        scope, trainer = self._prepare_trainer(
            program=program,
            dataset=dataset,
            scope=scope,
            thread=thread,
            debug=debug,
            fetch_list=fetch_list,
            fetch_info=fetch_info,
            print_period=print_period,
        )
2438 2439 2440 2441 2442 2443 2444

        trainer._set_infer(is_infer)
        trainer._gen_trainer_desc()

        # NOTE: only for debug, very slow
        # self._dump_debug_info(program=program, trainer=trainer)

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2445 2446 2447
        # warning if dataset not set psgpu in psgpu mode
        if dataset.use_ps_gpu is False and trainer.proto_desc.use_ps_gpu:
            logging.warning("dataset should call set_use_ps_gpu in PsGpu mode")
2448 2449 2450
        dataset._dynamic_adjust_before_train(trainer.proto_desc.thread_num)

        trainer_desc = trainer._desc()  # slow, cache
2451
        trainer_instance = self._default_executor.init_for_dataset(
2452 2453
            program.desc, trainer_desc, scope, dataset.dataset
        )
2454 2455

        ctx = [scope, real_fetch_list, trainer_instance]
2456 2457
        if use_program_cache:
            self._add_ctx_cache(cache_key, ctx)
2458

2459 2460
        return ctx

2461 2462 2463 2464 2465 2466
    def _prepare_fleet_executor_carrier(
        self,
        carrier_id="",
        program=None,
        scope=None,
        fleet_opt=None,
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        micro_scope_list=[],
2468 2469 2470 2471 2472 2473 2474
        with_standalone_executor=False,
    ):
        num_micro_batches = (
            fleet_opt["num_micro_batches"]
            if "num_micro_batches" in fleet_opt
            else 1
        )
2475
        cur_rank = int(os.getenv("PADDLE_TRAINER_ID", 0))
2476
        trainer_endpoints = os.getenv("PADDLE_TRAINER_ENDPOINTS", "").split(',')
2477
        nrank = len(trainer_endpoints)
2478

2479 2480
        assert 'scheduler' in fleet_opt or 'tasks' in fleet_opt, (
            "Fleet executor need configuration for scheduler, you can choose from 1F1B or Origin. "
2481
            "Or you can provide a list of task nodes to init fleet executor directly."
2482
        )
2483
        if 'tasks' in fleet_opt:
2484 2485 2486 2487
            assert 'task_id_to_rank' in fleet_opt, (
                "If you provide tasks to init fleet executor,"
                " task_id_to_rank should also be provided."
            )
2488 2489 2490
            print('fleet executor will use user defined task nodes')
            tasks = [task.task_node() for task in fleet_opt['tasks']]
            task_id_to_rank = fleet_opt['task_id_to_rank']
2491
        else:
2492 2493
            scheduler = fleet_opt['scheduler']
            if scheduler == '1F1B':
2494 2495 2496 2497 2498 2499 2500 2501 2502
                from paddle.distributed.fleet.fleet_executor_utils import (
                    run1f1b,
                )

                if (
                    "dist_strategy" not in fleet_opt
                    or "pp_degree" not in fleet_opt["dist_strategy"]
                    or fleet_opt["dist_strategy"]["pp_degree"] == 1
                ):
2503 2504
                    warnings.warn("Using 1F1B scheduler with pp_degree == 1.")
                tasks, task_id_to_rank = run1f1b(
2505 2506 2507 2508 2509 2510 2511
                    program,
                    cur_rank,
                    fleet_opt.get('num_micro_batches', 1),
                    fleet_opt.get('dist_strategy', {}),
                    nrank,
                    with_standalone_executor,
                )
2512 2513
            elif scheduler == 'Origin':
                from paddle.distributed.fleet.fleet_executor_utils import origin
2514 2515 2516 2517 2518 2519 2520 2521

                if (
                    "dist_strategy" in fleet_opt
                    and "pp_degree" in fleet_opt["dist_strategy"]
                ):
                    assert (
                        fleet_opt["dist_strategy"]["pp_degree"] == 1
                    ), "For pipeline mode, the scheduler should be 1F1B instead of Origin."
2522
                if "num_micro_batches" in fleet_opt:
2523 2524 2525
                    assert (
                        fleet_opt["num_micro_batches"] == 1
                    ), "For origin scheduler mode, the num micro batches should be 1."
2526 2527
                tasks, task_id_to_rank = origin(program, cur_rank)
            else:
2528 2529 2530
                raise "Fleet_executor only supports 1F1B and Origin scheduler, " "but received " + str(
                    scheduler
                ) + "."
2531 2532 2533
            # NOTE: have to hold these vars, otherwise will be destructed
            fleet_opt['tasks'] = tasks
            fleet_opt['task_id_to_rank'] = task_id_to_rank
2534 2535
        place = core.Place()
        place.set_place(self.place)
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2536

2537 2538 2539
        inference_root_scope_vars = (
            fleet_opt["fetch_var"] if "fetch_var" in fleet_opt else []
        )
2540 2541 2542 2543 2544 2545 2546 2547
        self._fleet_executor.init(
            carrier_id,
            program.desc,
            scope,
            place,
            num_micro_batches,
            tasks,
            task_id_to_rank,
2548
            inference_root_scope_vars,
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2549
            micro_scope_list,
2550 2551 2552 2553 2554 2555 2556 2557 2558 2559 2560
        )

    def _run_using_fleet_executor(
        self,
        program=None,
        feed=None,
        feed_var_name="feed",
        fetch_var_name="fetch",
        fetch_list=None,
        with_standalone_executor=False,
    ):
2561 2562
        cache_key = _get_strong_program_cache_key(program, feed, fetch_list)
        cached_program = self._get_program_cache(cache_key)
2563
        cached_scope = self._get_scope_cache(cache_key)
2564 2565 2566 2567
        if cached_scope is None:
            cached_scope = global_scope()
            self._add_scope_cache(cache_key, cached_scope)
        if cached_program is None:
2568 2569 2570
            assert (
                program._pipeline_opt
            ), "program should have _pipeline_opt to start carrier"
2571
            real_feed = [] if feed is None else feed
2572 2573 2574
            real_program = program
            if "section_program" in program._pipeline_opt:
                real_program = program._pipeline_opt["section_program"]
2575 2576 2577 2578 2579 2580 2581
            cached_program = _add_feed_fetch_ops(
                program=real_program,
                feed=real_feed,
                fetch_list=fetch_list,
                feed_var_name=feed_var_name,
                fetch_var_name=fetch_var_name,
            )
2582 2583 2584 2585 2586 2587 2588
            main_block = cached_program.block(0)
            for op in main_block.ops:
                # set the op_role of fetch op to Optimize to avoid
                # erase the fetched vars by gc for pipeline
                if op.type == 'fetch':
                    op._set_attr(
                        'op_role',
2589 2590
                        core.op_proto_and_checker_maker.OpRole.Optimize,
                    )
2591
            self._add_program_cache(cache_key, cached_program)
2592
            fleet_opt = program._pipeline_opt["fleet_opt"]
2593 2594 2595 2596 2597 2598 2599 2600 2601 2602 2603
            if 'tasks' in fleet_opt:
                # Insert feed/fetch op for cloned program in each task node,
                # these ops has already been inserted into the origin program.
                # To avoid every task nodes all have feed/fetch ops,
                # only insert feed ops into the first task node,
                # then insert fetch ops into the last task node.

                # Insert feed ops
                feed_task = fleet_opt['tasks'][0]
                print("Inserting feed ops for task", feed_task.task_id())
                feed_program = feed_task.get_program()
2604 2605 2606 2607 2608
                feed_program = self._add_feed_ops(
                    program=feed_program,
                    feed=real_feed,
                    feed_var_name=feed_var_name,
                )
2609 2610 2611 2612 2613 2614 2615 2616 2617
                feed_task.set_program(feed_program)

                # Insert fetch ops
                fetch_task = fleet_opt['tasks'][-1]
                print("Inserting fetch ops for task", fetch_task.task_id())
                fetch_program = fetch_task.get_program()
                fetch_program = self._add_fetch_ops(
                    program=fetch_program,
                    fetch_list=fetch_list,
2618 2619
                    fetch_var_name=fetch_var_name,
                )
2620 2621 2622 2623 2624 2625 2626
                main_block = fetch_program.block(0)
                for op in main_block.ops:
                    # set the op_role of fetch op to Optimize to avoid
                    # erase the fetched vars by gc for pipeline
                    if op.type == 'fetch':
                        op._set_attr(
                            'op_role',
2627 2628
                            core.op_proto_and_checker_maker.OpRole.Optimize,
                        )
2629 2630
                fetch_task.set_program(fetch_program)

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2631 2632 2633 2634 2635 2636 2637 2638
            micro_scope_list = []
            if (
                "inference_generation" in fleet_opt
                and fleet_opt["inference_generation"]
            ):
                for i in range(int(fleet_opt["num_micro_batches"])):
                    micro_scope_list.append(cached_scope.new_scope())

2639 2640 2641 2642 2643
            self._prepare_fleet_executor_carrier(
                cache_key,
                program=cached_program,
                scope=cached_scope,
                fleet_opt=fleet_opt,
L
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2644
                micro_scope_list=micro_scope_list,
2645 2646
                with_standalone_executor=with_standalone_executor,
            )
2647

2648
        if feed:
2649 2650 2651
            # NOTE: don't have to traverse programs in task nodes,
            # since they all sub program of cached program and
            # cached program is also added feed fetch var
2652
            self._feed_data(cached_program, feed, feed_var_name, cached_scope)
2653 2654

        from paddle.optimizer.lr import LRScheduler
2655

2656 2657 2658 2659 2660 2661
        if hasattr(program, 'lr_sheduler'):
            lr_sheduler = program.lr_sheduler
            assert isinstance(lr_sheduler, LRScheduler), "must be LRScheduler"
            lr_value = lr_sheduler()
            lr_var = program.global_block().vars[lr_sheduler._var_name]
            data = np.array([lr_value]).astype(convert_dtype(lr_var.dtype))
2662 2663 2664
            tensor = core.get_variable_tensor(
                cached_scope, lr_sheduler._var_name
            )
2665 2666
            tensor.set(data, self.place)

2667 2668
        self._fleet_executor.run(cache_key)

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2669 2670 2671 2672 2673 2674 2675 2676 2677 2678 2679 2680
        if "fetch_var" in fleet_opt:
            # If we speed up the generation in evaluation, we need to generate
            # multiple queries at the same time. Each query will in separate scope in order
            # not mix up. It indicate that final result will in multiple scopes and need to
            # fetch each.
            result_list = []
            for scope in micro_scope_list:
                for var in fleet_opt["fetch_var"]:
                    tensor = core.get_variable_tensor(scope, var)
                result_list.append(as_numpy(tensor))
            return result_list

2681 2682 2683 2684
        if fetch_list:
            arr = cached_scope.find_var(fetch_var_name).get_fetch_list()
            tensors = arr._move_to_list()
            return as_numpy(tensors)
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2685 2686
        return None

2687 2688 2689 2690 2691 2692 2693 2694 2695 2696 2697
    def _add_feed_ops(self, program, feed, feed_var_name):
        tmp_program = program.clone()

        global_block = tmp_program.global_block()

        if feed_var_name in global_block.vars:
            feed_var = global_block.var(feed_var_name)
        else:
            feed_var = global_block.create_var(
                name=feed_var_name,
                type=core.VarDesc.VarType.FEED_MINIBATCH,
2698 2699
                persistable=True,
            )
2700 2701 2702 2703 2704 2705

        # prepend feed operators
        if not has_feed_operators(global_block, feed, feed_var_name):
            for i, name in enumerate(feed):
                if global_block.has_var(name):
                    out = global_block.var(name)
2706 2707 2708 2709 2710 2711
                    global_block._prepend_op(
                        type='feed',
                        inputs={'X': [feed_var]},
                        outputs={'Out': [out]},
                        attrs={'col': i},
                    )
2712 2713 2714
                else:
                    warnings.warn(
                        "The variable %s is not found in program. It is not declared or is pruned."
2715 2716
                        % name
                    )
2717 2718 2719

        return tmp_program

2720
    @classmethod
2721 2722 2723
    def _add_fetch_ops(
        cls, program, fetch_list, fetch_var_name, use_fetch_v2=False
    ):
2724 2725 2726 2727 2728 2729 2730 2731 2732 2733
        tmp_program = program.clone()

        global_block = tmp_program.global_block()

        if fetch_var_name in global_block.vars:
            fetch_var = global_block.var(fetch_var_name)
        else:
            fetch_var = global_block.create_var(
                name=fetch_var_name,
                type=core.VarDesc.VarType.FETCH_LIST,
2734 2735
                persistable=True,
            )
2736 2737 2738 2739 2740 2741 2742

        if use_fetch_v2:
            fetch_op = 'fetch_v2'
        else:
            fetch_op = 'fetch'

        # append fetch_operators
2743 2744 2745
        if not has_fetch_operators(
            global_block, fetch_list, fetch_var_name, fetch_op
        ):
2746 2747
            for i, var in enumerate(fetch_list):
                assert isinstance(var, Variable) or isinstance(
2748 2749 2750 2751 2752 2753 2754 2755
                    var, str
                ), "Wrong type for fetch_list[%s]: %s" % (i, type(var))
                global_block.append_op(
                    type=fetch_op,
                    inputs={'X': [var]},
                    outputs={'Out': [fetch_var]},
                    attrs={'col': i},
                )
2756 2757 2758

        return tmp_program

2759 2760 2761 2762 2763 2764 2765 2766 2767 2768 2769
    @classmethod
    def _remove_fetch_ops(cls, program, fetch_op_name='fetch'):
        tmp_program = program.clone()
        global_block = tmp_program.global_block()
        op_num = len(global_block.ops)
        for idx in reversed(range(op_num)):
            if global_block.ops[idx].type == fetch_op_name:
                global_block._remove_op(idx)

        return tmp_program

2770 2771 2772 2773 2774 2775 2776 2777 2778 2779 2780 2781 2782 2783 2784 2785 2786 2787 2788 2789 2790 2791 2792 2793 2794 2795 2796
    def _run_pipeline(
        self,
        program=None,
        dataset=None,
        scope=None,
        thread=0,
        is_infer=False,
        debug=False,
        fetch_list=None,
        fetch_info=None,
        print_period=100,
        fetch_handler=None,
        use_program_cache=False,
    ):
        scope, real_fetch_list, trainer_instance = self._prepare_pipeline_ctx(
            program,
            dataset,
            scope,
            thread,
            is_infer,
            debug,
            fetch_list,
            fetch_info,
            print_period,
            fetch_handler,
            use_program_cache,
        )
2797

2798
        from paddle.optimizer.lr import LRScheduler
2799

2800 2801 2802 2803 2804 2805 2806 2807 2808
        if hasattr(program, 'lr_sheduler'):
            lr_sheduler = program.lr_sheduler
            assert isinstance(lr_sheduler, LRScheduler), "must be LRScheduler"
            lr_value = lr_sheduler()
            lr_var = program.global_block().vars[lr_sheduler._var_name]
            data = np.array([lr_value]).astype(convert_dtype(lr_var.dtype))
            tensor = core.get_variable_tensor(scope, lr_sheduler._var_name)
            tensor.set(data, self.place)

2809 2810
        self._default_executor.run_from_dataset(trainer_instance)

2811 2812 2813
        if not use_program_cache:
            self._default_executor.release_trainer(trainer_instance)

2814 2815 2816 2817 2818 2819 2820
        if real_fetch_list:
            arr = scope.find_var('fetch').get_fetch_list()
            tensors = arr._move_to_list()
            return as_numpy(tensors)

        return None

2821 2822 2823 2824 2825 2826 2827 2828 2829 2830 2831 2832
    def infer_from_dataset(
        self,
        program=None,
        dataset=None,
        scope=None,
        thread=0,
        debug=False,
        fetch_list=None,
        fetch_info=None,
        print_period=100,
        fetch_handler=None,
    ):
2833
        """
2834 2835 2836 2837 2838 2839 2840 2841 2842 2843 2844
        Infer from a pre-defined Dataset. Dataset is defined in paddle.fluid.dataset.
        Given a program, either a program or compiled program, infer_from_dataset will
        consume all data samples in dataset. Input scope can be given by users. By default,
        scope is global_scope(). The total number of thread run in training is `thread`.
        Thread number used in training will be minimum value of threadnum in Dataset and
        the value of thread in this interface. Debug can be set so that executor will display
        Run-Time for all operators and the throughputs of current infer task.

        The document of infer_from_dataset is almost the same as train_from_dataset,
        except that in distributed training, push gradients will be disabled in infer_from_dataset.
        infer_from_dataset() can be used for evaluation in multi-threadvery easily.
2845

2846 2847
        Args:
            program(Program|CompiledProgram): the program that needs to be run,
2848
                if not provided, then default_main_program (not compiled) will be used.
2849
            dataset(paddle.fluid.Dataset): dataset created outside this function,
2850 2851
                a user should provide a well-defined dataset before calling this function.
                Please check the document of Dataset if needed. default is None
2852
            scope(Scope): the scope used to run this program, you can switch it to different scope
2853 2854 2855
                for each run. default is global_scope
            thread(int): number of thread a user wants to run in this function. Default is 0, which
                means using thread num of dataset
2856
            debug(bool): whether a user wants to run infer_from_dataset, default is False
2857
            fetch_list(Tensor List): fetch Tensor list, each Tensor will be printed during
2858
                training, default is None
2859
            fetch_info(String List): print information for each Tensor, default is None
2860
            print_period(int): the number of mini-batches for each print, default is 100
2861
            fetch_handler(FetchHandler): a user define class for fetch output.
2862

2863 2864 2865 2866
        Returns:
            None

        Examples:
2867 2868

            .. code-block:: python
2869

2870
                import paddle
2871

2872 2873 2874 2875 2876 2877
                paddle.enable_static()
                place = paddle.CPUPlace()  # you can set place = paddle.CUDAPlace(0) to use gpu
                exe = paddle.static.Executor(place)
                x = paddle.static.data(name="x", shape=[None, 10, 10], dtype="int64")
                y = paddle.static.data(name="y", shape=[None, 1], dtype="int64", lod_level=1)
                dataset = paddle.fluid.DatasetFactory().create_dataset()
2878
                dataset.set_use_var([x, y])
2879
                dataset.set_thread(1)
2880 2881
                # you should set your own filelist, e.g. filelist = ["dataA.txt"]
                filelist = []
2882
                dataset.set_filelist(filelist)
2883 2884 2885
                exe.run(paddle.static.default_startup_program())
                exe.infer_from_dataset(program=paddle.static.default_main_program(),
                                       dataset=dataset)
2886

2887
        """
2888 2889 2890 2891 2892 2893 2894 2895 2896 2897 2898 2899 2900 2901 2902 2903 2904 2905 2906 2907 2908 2909 2910 2911 2912 2913 2914 2915 2916 2917 2918 2919 2920
        return self._run_from_dataset(
            program,
            dataset,
            scope,
            thread,
            True,
            debug,
            fetch_list,
            fetch_info,
            print_period,
            fetch_handler,
        )

    def start_heter_trainer(
        self,
        program=None,
        scope=None,
        debug=False,
        fetch_list=None,
        fetch_info=None,
        print_period=100,
        fetch_handler=None,
    ):
        scope, trainer = self._prepare_trainer(
            program=program,
            dataset=None,
            scope=scope,
            thread=1,
            debug=debug,
            fetch_list=fetch_list,
            fetch_info=fetch_info,
            print_period=print_period,
        )
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2921

2922
        trainer._set_infer(False)
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2923 2924 2925 2926 2927
        trainer._gen_trainer_desc()

        self._dump_debug_info(program=program, trainer=trainer)

        trainer_instance = self._default_executor.init_for_dataset(
2928 2929
            program.desc, trainer._desc(), scope, None
        )
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2930

2931
        # if fetch_handler is not None:
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2932 2933 2934 2935 2936 2937
        #    scope0 = trainer_instance.get_worker_scope(0)
        #    fetch_monitor = FetchHandlerMonitor(scope0, fetch_handler)
        #    fetch_monitor.start()
        #    self._default_executor.run_from_dataset(trainer_instance)
        #    fetch_monitor.stop()
        #    self._default_executor.release_trainer(trainer_instance)
2938
        # else:
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2939 2940

        self._default_executor.run_from_dataset(trainer_instance)
2941
        # self._default_executor.release_trainer(trainer_instance)
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2942 2943 2944

        return trainer_instance

2945 2946 2947 2948 2949 2950 2951 2952 2953 2954 2955 2956
    def train_from_dataset(
        self,
        program=None,
        dataset=None,
        scope=None,
        thread=0,
        debug=False,
        fetch_list=None,
        fetch_info=None,
        print_period=100,
        fetch_handler=None,
    ):
2957 2958 2959 2960 2961 2962 2963 2964
        """
        Train from a pre-defined Dataset. Dataset is defined in paddle.fluid.dataset.
        Given a program, either a program or compiled program, train_from_dataset will
        consume all data samples in dataset. Input scope can be given by users. By default,
        scope is global_scope(). The total number of thread run in training is `thread`.
        Thread number used in training will be minimum value of threadnum in Dataset and
        the value of thread in this interface. Debug can be set so that executor will display
        Run-Time for all operators and the throughputs of current training task.
2965

2966 2967 2968 2969
        Note: train_from_dataset will destroy all resources created within executor for each run.

        Args:
            program(Program|CompiledProgram): the program that needs to be run,
2970
                if not provided, then default_main_program (not compiled) will be used.
2971
            dataset(paddle.fluid.Dataset): dataset created outside this function,
2972 2973
                a user should provide a well-defined dataset before calling this function.
                Please check the document of Dataset if needed.
2974
            scope(Scope): the scope used to run this program, you can switch it to different scope
2975 2976 2977
                for each run. default is global_scope
            thread(int): number of thread a user wants to run in this function. Default is 0, which
                means using thread num of dataset
2978
            debug(bool): whether a user wants to run train_from_dataset
2979
            fetch_list(Tensor List): fetch Tensor list, each variable will be printed
2980
                during training
2981
            fetch_info(String List): print information for each Tensor, its length should be equal
2982 2983
                to fetch_list
            print_period(int): the number of mini-batches for each print, default is 100
2984
            fetch_handler(FetchHandler): a user define class for fetch output.
2985 2986 2987

        Returns:
            None
2988

2989
        Examples:
2990

2991 2992
            .. code-block:: python

2993
              import paddle
2994

2995 2996 2997 2998 2999 3000
              paddle.enable_static()
              place = paddle.CPUPlace() # you can set place = paddle.CUDAPlace(0) to use gpu
              exe = paddle.static.Executor(place)
              x = paddle.static.data(name="x", shape=[None, 10, 10], dtype="int64")
              y = paddle.static.data(name="y", shape=[None, 1], dtype="int64", lod_level=1)
              dataset = paddle.fluid.DatasetFactory().create_dataset()
3001
              dataset.set_use_var([x, y])
3002
              dataset.set_thread(1)
3003 3004
              # you should set your own filelist, e.g. filelist = ["dataA.txt"]
              filelist = []
3005
              dataset.set_filelist(filelist)
3006 3007
              exe.run(paddle.static.default_startup_program())
              exe.train_from_dataset(program=paddle.static.default_main_program(),
3008
                                     dataset=dataset)
3009 3010

        """
3011 3012 3013 3014 3015 3016 3017 3018 3019 3020 3021 3022
        return self._run_from_dataset(
            program,
            dataset,
            scope,
            thread,
            False,
            debug,
            fetch_list,
            fetch_info,
            print_period,
            fetch_handler,
        )