partial_program.py 40.3 KB
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# Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

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from copy import deepcopy

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import numpy as np
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import paddle
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from paddle import _legacy_C_ops
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from paddle.amp.auto_cast import _in_amp_guard, _in_pure_fp16_guard
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from paddle.fluid import backward, core, framework, program_guard
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from paddle.fluid.compiler import BuildStrategy
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from paddle.fluid.contrib.mixed_precision.decorator import (
    AutoMixedPrecisionLists,
)
from paddle.fluid.contrib.mixed_precision.fp16_utils import (
    cast_model_to_fp16,
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    rewrite_program,
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)
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from paddle.fluid.dygraph import layers
from paddle.fluid.dygraph.base import switch_to_static_graph
from paddle.fluid.executor import (
    _is_dy2st_enable_standalone_executor,
    _is_enable_standalone_executor,
)
from paddle.fluid.framework import _apply_pass
from paddle.fluid.layers.utils import _hash_with_id, flatten, pack_sequence_as

from . import logging_utils
from .return_transformer import RETURN_NO_VALUE_MAGIC_NUM
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__all__ = []

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class NestSequence:
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    """
    A wrapper class that easily to flatten and restore the nest structure of
    given sequence.
    """

    def __init__(self, raw_input, need_check=False):
        self.__raw_input = raw_input
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        self.__input_list = self.tolist()
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        self.__var_ids = self._get_var_ids()
        self._check_non_variable(need_check)

    def tolist(self):
        """
        Flattens the nested sequences into single list.
        """
        return flatten(self.__raw_input)

    def restore(self, value_list):
        """
        Restores the nested sequence from value list.
        """
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        assert len(self.__input_list) == len(value_list)
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        return pack_sequence_as(self.__raw_input, value_list)

    def _get_var_ids(self):
        var_ids = []
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        for idx, var in enumerate(self.__input_list):
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            if isinstance(
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                var, (framework.Variable, core.VarBase, core.eager.Tensor)
            ):
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                var_ids.append(idx)

        return var_ids

    def _check_non_variable(self, need_check):
        """
        Raises warning if output of traced function contains non-tensor type values.
        """
        if need_check:
            warning_types = set()
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            for var in self.__input_list:
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                if not isinstance(
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                    var, (framework.Variable, core.VarBase, core.eager.Tensor)
                ):
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                    warning_types.add(type(var))
            if warning_types:
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                logging_utils.warn(
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                    "Output of traced function contains non-tensor type values: {}. "
                    "Currently, We don't support to update them while training and will return "
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                    "what we first saw. Please try to return them as tensor.".format(
                        list(warning_types)
                    )
                )
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    @property
    def var_ids(self):
        return self.__var_ids

    def __getitem__(self, item):
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        return self.__input_list[item]
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class LazyInitialized:
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    """
    Descriptor to implement lazy initialization of property.
    """

    def __init__(self, function):
        self.function = function

    def __get__(self, instance, cls):
        val = self.function(instance)
        setattr(instance, self.function.__name__, val)
        return val


def _change_is_test_status(program, is_test):
    # change all `is_test` attributes
    for block in program.blocks:
        for op in block.ops:
            if op.has_attr('is_test'):
                op._set_attr('is_test', is_test)
    return program


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class PartialProgramLayer:
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    """
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    PartialProgramLayer wraps all the ops from layers decorated by `@to_static`
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    and execute them as a static subgraph.

    .. note::
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        **1. This is a very low level API. Users should not use this API
             directly. Please use `partial_program_from(concrete_program)`
             to create it.
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        **2. LoDTensorArray is not currently supported in the output.

    Args:
        main_program(Program): The main program that contains ops need to be executed.
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        inputs(list[Variable]): The input list of the decorated function by `@to_static`.
        outputs(list[Variable]): The output list of the decorated function by `@to_static`.
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        parameters(list[VarBase]|None): All trainable parameters included in the program. Default None.

    Returns:
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        Layer: A Layer object that run all ops internally in static graph mode.
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    """

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    def __init__(
        self, main_program, inputs, outputs, parameters=None, **kwargs
    ):
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        super().__init__()
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        self._inputs = NestSequence(inputs)
        self._outputs = NestSequence(outputs, need_check=True)
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        self._params = parameters if parameters is not None else []
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        self._build_strategy = kwargs.get('build_strategy', BuildStrategy())
        assert isinstance(self._build_strategy, BuildStrategy)

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        self._origin_main_program = self._verify_program(main_program)
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        self._cuda_graph_vec = self._create_cuda_graph_vec()
        self._cuda_graph_capture_mode = ""
        self._cuda_graph_pool_id = 0
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        # Set default mode to train
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        self.training = True
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        custom_white_list, custom_black_list = None, None
        tracer = framework._dygraph_tracer()
        if tracer:
            custom_white_list, custom_black_list = tracer._get_amp_op_list()
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        # For AMP training
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        self._amp_list = AutoMixedPrecisionLists(
            custom_white_list=custom_white_list,
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            custom_black_list=custom_black_list,
        )
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        # program_id -> list(scope)
        self._scope_cache = {}

    def _get_scope(self, program_id=None, use_scope_cache=False):
        if use_scope_cache:
            if program_id not in self._scope_cache:
                scope = core.Scope()
                self._scope_cache[program_id] = [scope]
                return scope
            else:
                for scope in self._scope_cache[program_id]:
                    if scope._can_reuesd:
                        return scope
                scope = core.Scope()
                self._scope_cache[program_id].append(scope)
                return scope
        else:
            return core.Scope()

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    @LazyInitialized
    def __fake_vars(self):
        return _create_fake_var()

    @LazyInitialized
    def _double_grads(self):
        return self._get_double_grads(self._origin_main_program)

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    # whole
    @switch_to_static_graph
    def _create_program(self, is_infer_mode=False):
        if is_infer_mode:
            return self._origin_main_program.clone(for_test=is_infer_mode)
        else:
            train_program = self._append_backward_desc(
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                self._origin_main_program
            )
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            # Note: Only set grad type once after initializing train program. So we put it here.
            self._set_grad_type(self._params, train_program)
            return train_program
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    @switch_to_static_graph
    def _create_amp_program(self, is_infer_mode=False):
        amp_program = self._origin_main_program.clone(for_test=is_infer_mode)
        with program_guard(amp_program):
            rewrite_program(amp_program, self._amp_list)
        if is_infer_mode:
            return amp_program
        else:
            train_amp_program = self._append_backward_desc(amp_program)
            self._set_grad_type(self._params, train_amp_program)
            return train_amp_program
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    @switch_to_static_graph
    def _create_pure_fp16_program(self, is_infer_mode=False):
        pure_fp16_program = self._origin_main_program.clone(
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            for_test=is_infer_mode
        )
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        with program_guard(pure_fp16_program):
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            cast_model_to_fp16(
                pure_fp16_program, self._amp_list, use_fp16_guard=False
            )
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        if is_infer_mode:
            return pure_fp16_program
        else:
            train_pure_fp16_program = self._append_backward_desc(
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                pure_fp16_program
            )
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            self._set_grad_type(self._params, train_pure_fp16_program)
            return train_pure_fp16_program
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    @switch_to_static_graph
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    def _create_forward_backward_train_program(self):
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        whole_program = self._train_program
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        forward_end_op_index = self._infer_program.desc.block(0).op_size()
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        return self._get_forward_backward_program_form(
            whole_program, forward_end_op_index
        )
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    @switch_to_static_graph
    def _create_forward_backward_train_amp_program(self):
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        whole_program = self._train_amp_program
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        forward_end_op_index = self._infer_amp_program.desc.block(0).op_size()
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        return self._get_forward_backward_program_form(
            whole_program, forward_end_op_index
        )
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    @switch_to_static_graph
    def _create_forward_backward_train_pure_fp16_program(self):
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        whole_program = self._train_pure_fp16_program
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        forward_end_op_index = self._infer_pure_fp16_program.desc.block(
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            0
        ).op_size()
        return self._get_forward_backward_program_form(
            whole_program, forward_end_op_index
        )
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    @LazyInitialized
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    def _train_program(self):
        return self._create_program()
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    @LazyInitialized
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    def _infer_program(self):
        return self._create_program(is_infer_mode=True)
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    @LazyInitialized
    def _train_amp_program(self):
        return self._create_amp_program()

    @LazyInitialized
    def _infer_amp_program(self):
        return self._create_amp_program(is_infer_mode=True)
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    @LazyInitialized
    def _train_pure_fp16_program(self):
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        return self._create_pure_fp16_program()
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    @LazyInitialized
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    def _infer_pure_fp16_program(self):
        return self._create_pure_fp16_program(is_infer_mode=True)
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    @LazyInitialized
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    def _train_forward_backward_program(self):
        program = self._create_forward_backward_train_program()
        return program
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    @LazyInitialized
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    def _train_amp_forward_backward_program(self):
        program = self._create_forward_backward_train_amp_program()
        return program

    @LazyInitialized
    def _train_pure_fp16_forward_backward_program(self):
        program = self._create_forward_backward_train_pure_fp16_program()
        return program

    @property
    def whole_program(self):
        if self.training:
            if _in_amp_guard():
                return self._train_amp_program
            elif _in_pure_fp16_guard():
                return self._train_pure_fp16_program
            else:
                return self._train_program
        else:
            if _in_amp_guard():
                return self._infer_amp_program
            elif _in_pure_fp16_guard():
                return self._infer_pure_fp16_program
            else:
                return self._infer_program

    @property
    def forward_program(self):
        if self.training:
            if _in_amp_guard():
                program = self._train_amp_forward_backward_program
                return program[0]
            elif _in_pure_fp16_guard():
                program = self._train_pure_fp16_forward_backward_program
                return program[0]
            else:
                program = self._train_forward_backward_program
                return program[0]
        else:
            if _in_amp_guard():
                return self._infer_amp_program
            elif _in_pure_fp16_guard():
                return self._infer_pure_fp16_program
            else:
                return self._infer_program

    @property
    def backward_program(self):
        if self.training:
            if _in_amp_guard():
                program = self._train_amp_forward_backward_program
                return program[1]
            elif _in_pure_fp16_guard():
                program = self._train_pure_fp16_forward_backward_program
                return program[1]
            else:
                program = self._train_forward_backward_program
                return program[1]
        else:
            return paddle.static.Program()
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    @LazyInitialized
    def _train_program_id(self):
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        program_id = _hash_with_id(self._train_program, self)
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        core._set_cached_executor_build_strategy(
            program_id, self._build_strategy
        )
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        return program_id
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    @LazyInitialized
    def _infer_program_id(self):
        return _hash_with_id(self._infer_program, self)

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    @LazyInitialized
    def _train_amp_program_id(self):
        program_id = _hash_with_id(self._train_amp_program, self)
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        core._set_cached_executor_build_strategy(
            program_id, self._build_strategy
        )
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        return program_id

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    @LazyInitialized
    def _infer_amp_program_id(self):
        return _hash_with_id(self._infer_amp_program, self)

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    @LazyInitialized
    def _train_pure_fp16_program_id(self):
        program_id = _hash_with_id(self._train_pure_fp16_program, self)
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        core._set_cached_executor_build_strategy(
            program_id, self._build_strategy
        )
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        return program_id

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    @LazyInitialized
    def _infer_pure_fp16_program_id(self):
        return _hash_with_id(self._infer_pure_fp16_program, self)

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    @LazyInitialized
    def _param_grad_names(self):
        names = []
        # NOTE: `names` and `self._params` must be in the same order so that
        # the param grad name can be set correctly in the run_program.
        for param in self._params:
            candidate = [
                var_name
                for var_name in self.backward_program.block(0).vars.keys()
                if var_name.endswith(param.name + '@GRAD')
            ]
            if candidate:
                names.append(
                    max(candidate, key=lambda name: name.count('grad/'))
                )
            else:
                names.append(param.name + '@GRAD')
        return names

    @LazyInitialized
    def _out_grad_names(self):
        names = []
        fwd_end_op_index = self._get_end_op_index()
        for i in range(
            fwd_end_op_index + 1,
            min(
                fwd_end_op_index + 2 * len(self._outputs.var_ids),
                len(self.program.block(0).ops),
            ),
            2,
        ):
            op = self.program.block(0).ops[i]
            if op.type == 'fill_constant':
                var_name = op.output('Out')[0]
                names.append(var_name)
        return names

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    @property
    def whole_program_id(self):
        if self.training:
            if _in_amp_guard():
                return self._train_amp_program_id
            elif _in_pure_fp16_guard():
                return self._train_pure_fp16_program_id
            else:
                return self._train_program_id
        else:
            if _in_amp_guard():
                return self._infer_amp_program_id
            elif _in_pure_fp16_guard():
                return self._infer_pure_fp16_program_id
            else:
                return self._infer_program_id

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    def _verify_program(self, main_program):
        """
        Verify that the program parameter is initialized, prune some unused params,
        and remove redundant op callstack.
        """
        # 1. Check all params from main program can be found in self._params
        self._check_params_all_inited(main_program)
        # 2. Prune the parameters not used anywhere in the program.
        self._prune_unused_params(main_program)

        return main_program

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    def prepare_gradient_aggregation(
        self, start_idx, main_program, target_program
    ):
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        """
        Why we need add gradient aggregation operation ?
        In some cases, if non leaf nodes are used as output, gradient overwriting will occur, such as
        def forward(self, in):
            x = 2 * in  # <---- x is a non-leaf node in program.
            y = x + 3
            return x, y
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        loss = forward(in)[0].sum()
        loss.backward()  # <----- x@grad will be overwrited by elementwise_add_grad Op
        """

        def _need_aggregation(var):
            """
            if exist a op whose inputs is var, then return True
            """
            if not isinstance(var, framework.Variable) or var.type not in [
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                core.VarDesc.VarType.LOD_TENSOR,
                core.VarDesc.VarType.SELECTED_ROWS,
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            ]:
                return False
            if var.dtype not in [paddle.float32, paddle.float64]:
                return False
            for op in main_program.block(0).ops:
                for in_arg in op.input_arg_names:
                    if in_arg == var.name:
                        return True
            return False

        def _insert_aggregation_ops_for_var(target_program, var):
            suffix = "@dy2static"
            var_grad_name = var.grad_name
            new_grad_name = var.name + suffix + "@GRAD"
            finded_ops = list(
                filter(
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                    lambda x: x[0] >= start_idx
                    and any(
                        [
                            out_arg == var_grad_name
                            for out_arg in x[1].output_arg_names
                        ]
                    ),
                    enumerate(target_program.block(0).ops),
                )
            )
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            # len(finded_ops) may equals zero when stop_gradient works.
            # len(finded_ops) may > 1, because we may have fill_constant op.
            if len(finded_ops) == 0:
                return None
            # step1: create a new var named var.name@GRAD
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            target_program.block(0).create_var(
                name=new_grad_name,
                type=var.type,
                dtype=var.dtype,
                shape=var.shape,
            )
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            # step2: rename the var.name@GRAD to var.name@GRAD@dy2static
            for idx, op in finded_ops:
                op._rename_input(var_grad_name, new_grad_name)
                op._rename_output(var_grad_name, new_grad_name)
            # step3: insert sum op to aggregate the gradient.
            #        var.name@GRAD = sum(var.name@dy2static@GRAD, var.name@GRAD)
            target_program.block(0)._insert_op(
                finded_ops[-1][0] + 1,
                type='sum',
                inputs={'X': [var_grad_name, new_grad_name]},
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                outputs={"Out": var_grad_name},
            )
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            return None

        to_processed_vars = list(
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            filter(_need_aggregation, self._outputs.tolist())
        )
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        for _var in to_processed_vars:
            _insert_aggregation_ops_for_var(target_program, _var)

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    @switch_to_static_graph
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    def _append_backward_desc(self, main_program):
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        # make sure all status of is_test are False in train mode.
        program = _change_is_test_status(main_program.clone(), is_test=False)
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        targets = []
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        for out in self._outputs.tolist():
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            if isinstance(out, framework.Variable):
                targets.append(program.global_block().var(out.name))

        if targets and self._params:
            backward.gradients(targets=targets, inputs=[])

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        start_idx = len(main_program.block(0).ops) + 2 * len(
            self._outputs.tolist()
        )
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        self.prepare_gradient_aggregation(start_idx, main_program, program)
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        return program

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    def _prune_unused_params(self, program):
        """
        Prune the parameters not used anywhere in the program.
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        The `@to_static` may only decorated a sub function which
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        contains some unused parameters created in `__init__`.
        So prune these parameters to avoid unnecessary operations in
        `run_program_op`.
        """
        required_params = []
        for param in self._params:
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            found_param = False
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            for block in program.blocks:
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                for op in block.ops:
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                    if (
                        param.name in op.input_arg_names
                        or param.name in op.output_arg_names
                    ):
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                        required_params.append(param)
                        found_param = True
                        break
                if found_param:
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                    break

        self._params = required_params

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    def _get_double_grads(self, program):
        double_grads = []
        for block in program.blocks:
            for name in block.vars:
                if "@GRAD" in name:
                    var_desc = block.vars[name].desc
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                    var_base = None
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                    if not framework._in_eager_mode_:
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                        var_base = core.VarBase(
                            var_desc.dtype(),
                            var_desc.shape(),
                            var_desc.name(),
                            var_desc.type(),
                            False,
                        )
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                    else:
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                        var_base = core.eager.Tensor(
                            var_desc.dtype(),
                            var_desc.shape(),
                            var_desc.name(),
                            var_desc.type(),
                            False,
                        )
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                    double_grads.append(var_base)
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        return self._valid_vars(double_grads)
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    def _get_end_op_index(self):
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        if _in_amp_guard():
            infer_program = self._infer_amp_program
        elif _in_pure_fp16_guard():
            infer_program = self._infer_pure_fp16_program
        else:
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            infer_program = self.infer_program
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        return infer_program.desc.block(0).op_size()

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    def __call__(self, inputs):
        in_vars, out_vars = self._prepare(inputs)
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        self._cast_fp16_if_pure_fp16(in_vars)

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        attrs = [
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            'global_block',
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            self.program.desc.block(0),
            'start_op_index',
            0,
            'end_op_index',
            self._get_end_op_index(),
            'is_test',
            not self.training,
            'program_id',
            self.program_id,
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        ]
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        if self.training:
            # NOTE: In the case of higher-order gradient, the names of the parameter grads may be like
            # `grad/grad/grad/linear_0.w_0@GRAD` instead of simply `linear_0.w_0@GRAD`, so we get
            # the correct names of the parameter grads from program. And out grads are similar to above.
            attrs.extend(
                (
                    'param_grad_names',
                    self._param_grad_names,
                    'out_grad_names',
                    self._out_grad_names,
                )
            )
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        if self._cuda_graph_capture_mode:
            attrs.extend(
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                (
                    'cuda_graph_capture_mode',
                    self._cuda_graph_capture_mode,
                    'cuda_graph_pool_id',
                    self._cuda_graph_pool_id,
                )
            )

        use_interpretorcore = (
            _is_enable_standalone_executor()
            and _is_dy2st_enable_standalone_executor()
        )
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        attrs.extend(('use_interpretorcore', use_interpretorcore))
        if use_interpretorcore:
            attrs.extend(
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                (
                    'forward_global_block',
                    self.forward_program.desc.block(0),
                    'backward_global_block',
                    self.backward_program.desc.block(0),
                )
            )
683

684
            _legacy_C_ops.run_program(
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                self._valid_vars(in_vars),
                self._valid_vars(self._params),
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                self._valid_vars(out_vars),
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                self._create_scope_vec(
                    program_id=self.program_id, use_scope_cache=True
                ),
                self._double_grads,
                self._cuda_graph_vec,
                *attrs
            )
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        else:
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            _legacy_C_ops.run_program(
                self._valid_vars(in_vars),
                self._valid_vars(self._params),
                self._valid_vars(out_vars),
                self._create_scope_vec(),
                self._double_grads,
                self._cuda_graph_vec,
                *attrs
            )
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        restored_nest_out = self._restore_out(out_vars)
        return self._remove_no_value(restored_nest_out)
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    def _cast_fp16_if_pure_fp16(self, in_vars):
        if _in_pure_fp16_guard():
            for i, var in enumerate(in_vars):
                name = var.name
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                if (
                    self.program.global_block().has_var(name)
                    and self.program.global_block().var(name).dtype
                    == paddle.float16
                ):
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                    in_vars[i] = var.astype('float16')
                    in_vars[i].name = name

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    @property
    def program(self):
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        return self.whole_program
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    @property
    def program_id(self):
726
        return self.whole_program_id
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    @property
    def train_program(self):
        if _in_amp_guard():
            return self._train_amp_program
        elif _in_pure_fp16_guard():
            return self._train_pure_fp16_program
        else:
            return self._train_program

    @property
    def infer_program(self):
        if _in_amp_guard():
            return self._infer_amp_program
        elif _in_pure_fp16_guard():
            return self._infer_pure_fp16_program
        else:
            return self._infer_program
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    @switch_to_static_graph
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    def _get_forward_backward_program_form(
        self, whole_program, forward_end_op_index
    ):
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        # NOTE(dev): We apply build_strategy for backward firstly to
        # avoid skipping more gc variables.
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        backward_start_op_index = forward_end_op_index + 2 * len(
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            self._outputs.var_ids
        )
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        backward_end_op_index = whole_program.desc.block(0).op_size()
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        backward_skip_vars = self._parse_skip_gc_vars(whole_program)
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        backward_builded_program = add_build_strategy_for(
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            whole_program,
            backward_start_op_index,
            backward_end_op_index,
            self._build_strategy,
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            backward_skip_vars,
        )

        forward_skip_vars = self._parse_skip_gc_vars(
            whole_program, backward_builded_program
        )
        forward_builded_program = add_build_strategy_for(
            whole_program,
            0,
            forward_end_op_index,
            self._build_strategy,
            forward_skip_vars,
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        )
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        self._apply_inplace_pass(
            forward_builded_program, backward_builded_program
        )
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        return [forward_builded_program, backward_builded_program]

    def _apply_inplace_pass(self, forward_program, backward_program):
        attr_types = {
            "use_cuda": "bool",
            "mem_opt_skip_vars": "list[str]",
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            "for_partial_block": "bool",
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        }
        empty_startup_program = paddle.static.Program()
        use_cuda = True if core.is_compiled_with_cuda() else False
        # skip data var
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        forward_mem_opt_skip_vars = self._parse_skip_gc_vars(
            forward_program, backward_program
        )
        backward_mem_opt_skip_vars = self._parse_skip_gc_vars(forward_program)
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        attrs = {
            "use_cuda": use_cuda,
            "mem_opt_skip_vars": forward_mem_opt_skip_vars,
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            "for_partial_block": True,
798
        }
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        _apply_pass(
            forward_program,
            empty_startup_program,
            "buffer_shared_inplace_pass",
            attrs,
            attr_types,
        )
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        attrs = {
            "use_cuda": use_cuda,
            "mem_opt_skip_vars": backward_mem_opt_skip_vars,
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            "for_partial_block": True,
810
        }
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        _apply_pass(
            backward_program,
            empty_startup_program,
            "buffer_shared_inplace_pass",
            attrs,
            attr_types,
        )
818

819 820 821 822 823 824 825 826 827 828 829 830 831 832 833 834 835 836 837 838 839 840 841 842 843 844 845 846 847 848 849 850
    @LazyInitialized
    def _inout_var_names(self):
        """
        Returns Variable Names from self._inputs and self.outputs
        """
        var_names = []
        for var in self._inputs:
            if isinstance(var, paddle.fluid.framework.Variable):
                var_names.append(var.desc.name())
        for var in self._outputs:
            if isinstance(var, paddle.fluid.framework.Variable):
                var_names.append(var.desc.name())
        return var_names

    def _parse_skip_gc_vars(self, program, backward_program=None):
        """
        Parse variables that need to skip GC after execute it.
        If specify backward_program, it will keep the variables used in backward.
        """
        # skip data var, DO NOT ignore this deepcopy
        skip_vars = deepcopy(self._inout_var_names)
        for var_name, var in program.global_block().vars.items():
            if var.is_data:
                skip_vars.append(var_name)

        if backward_program:
            for var_name in core.parse_safe_eager_deletion_skip_vars(
                backward_program.desc
            ):
                skip_vars.append(var_name)
        return skip_vars

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    def _prepare(self, inputs):
        """
        Prepare inputs, outputs, attrs.
        """
        assert isinstance(inputs, (tuple, list))
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        # Flatten inputs with nested structure into single list.
        flatten_inputs = flatten(inputs)
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        # Convert variable into VarBase and feed in training data.
        input_vars = []
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        expected_place = framework._current_expected_place()
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        for i, value in enumerate(flatten_inputs):
862
            if isinstance(value, np.ndarray):
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                var = None
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                if not framework._in_eager_mode_:
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                    var = core.VarBase(
                        value=value,
                        name=self._inputs[i].desc.name(),
                        persistable=False,
                        place=expected_place,
                        zero_copy=True,
                    )
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                else:
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                    var = core.eager.Tensor(
                        value=value,
                        name=self._inputs[i].desc.name(),
                        persistable=False,
                        place=expected_place,
                        zero_copy=True,
                    )
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            elif isinstance(value, (core.VarBase, core.eager.Tensor)):
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                # NOTE(Aurelius84): If var is on CPUPlace, it will be transformed multi times
                # into CUDAPlace when it's as input of multi Ops. so we move it in advance
                # to avoid this problem.
                if value.stop_gradient and not value.place._equals(
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                    expected_place
                ):
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                    var = value._copy_to(expected_place, False)
                    var.stop_gradient = True
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                else:
                    var = value
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                var.name = self._inputs[i].desc.name()
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            else:
                continue
            input_vars.append(var)
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        # mapping from name(string) -> VarBase
        out_varbase_map = {}

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        def create_out(var_id):
            var = self._outputs[var_id]
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            assert isinstance(var, framework.Variable)
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            var_desc = var.desc
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            varbase = None
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            if var_desc.name() in out_varbase_map:
                return out_varbase_map[var_desc.name()]

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            if not framework._in_eager_mode_:
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                var_base = core.VarBase(
                    var_desc.dtype(),
                    var_desc.shape(),
                    var_desc.name(),
                    var_desc.type(),
                    False,
                )
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            else:
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                var_base = core.eager.Tensor(
                    var_desc.dtype(),
                    var_desc.shape(),
                    var_desc.name(),
                    var_desc.type(),
                    False,
                )
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            var_base.stop_gradient = var.stop_gradient
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            out_varbase_map[var_desc.name()] = var_base
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            return var_base

        # Create VarBase to receive output data.
        out_vars = list(map(create_out, self._outputs.var_ids))

        return input_vars, out_vars
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    def _create_scope_vec(self, program_id=None, use_scope_cache=False):
934
        # Hold forward variables
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        tmp_scope_vec = None
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        inner_scope = self._get_scope(
            program_id=program_id, use_scope_cache=use_scope_cache
        )
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        if not framework._in_eager_mode_:
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            tmp_scope_vec = core.VarBase(
                core.VarDesc.VarType.FP32,
                [],
                "program_out_scope",
                core.VarDesc.VarType.STEP_SCOPES,
                True,
            )
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            tmp_scope_vec.value().set_scope(inner_scope)
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        else:
            tmp_scope_vec = [inner_scope]
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        return tmp_scope_vec
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952
    def _create_cuda_graph_vec(self):
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        var = core.VarBase(
            core.VarDesc.VarType.FP32,
            [],
            "cuda_graph",
            core.VarDesc.VarType.RAW,
            True,
        )
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        var.stop_gradient = True
        return var

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    def _restore_out(self, out_vars):
        """
        Restores same nested outputs by only replacing the Variable with VarBase.
        """

        flatten_outputs = self._outputs.tolist()
        for i, idx in enumerate(self._outputs.var_ids):
            flatten_outputs[idx] = out_vars[i]
        outs = self._outputs.restore(flatten_outputs)
972
        if outs is not None and len(outs) == 1:
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            outs = outs[0]

        return outs

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    @switch_to_static_graph
    def _clone_for_test(self, main_program):
        return main_program.clone(for_test=True)

981
    def _is_no_value(self, var):
982 983 984
        if isinstance(var, (core.VarBase, core.eager.Tensor)) and var.shape == [
            1
        ]:
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            # NOTE: .numpy() will insert MemcpySync operation, it hits performance.
            if var.numpy()[0] == RETURN_NO_VALUE_MAGIC_NUM:
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                return True
        return False

    def _remove_no_value(self, out_vars):
        """
        Removes invalid value for various-length return statement
        """
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        if isinstance(out_vars, (core.VarBase, core.eager.Tensor)):
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            if self._is_no_value(out_vars):
                return None
            return out_vars
        elif isinstance(out_vars, (tuple, list)):
            if isinstance(out_vars, tuple):
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                res = tuple(
                    var for var in out_vars if not self._is_no_value(var)
                )
1003 1004 1005 1006
            else:
                # isinstance(out_vars, list)
                res = [var for var in out_vars if not self._is_no_value(var)]

1007
            has_removed = len(out_vars) > len(res)
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            # len(out_vars) > len(res) means we have removed var. This is
            # preventing out_vars is empty or just one element at the beginning
            if len(res) == 0 and has_removed:
                return None
            elif len(res) == 1 and has_removed:
                return res[0]
            return res

        return out_vars

1018
    def _set_grad_type(self, params, train_program):
1019 1020 1021 1022 1023 1024 1025 1026
        # NOTE: if user set sparse gradient mode, the param's gradient
        # will be SelectedRows, not LoDTensor. But tracer will just
        # set param grad VarBase by forward VarBase(LoDTensor)
        # If we don't change grad_var type here, RunProgramOp need
        # transform SelectedRows to LoDTensor forcibly, it may not
        # be user wanted result.
        for param in params:
            grad_name = param.name + core.grad_var_suffix()
1027
            grad_var = train_program.desc.block(0).find_var(grad_name.encode())
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            # NOTE: cannot find var desc maybe no problem, such as in batch_norm
            if grad_var is None:
                continue
            param._set_grad_type(grad_var.type())

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    def _remove_op_call_stack(self, main_program):
        """
        Remove op's python call stack with redundant low-level error messages related to
        transforamtions to avoid confusing users.
        """
        assert isinstance(main_program, framework.Program)
        for block in main_program.blocks:
            for op in block.ops:
                if op.has_attr("op_callstack"):
                    op._remove_attr("op_callstack")

        return main_program

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    def _check_params_all_inited(self, main_program):
        """
        Check all params from main program are already initialized, see details as follows:
            1. all parameters in self._params should be type `framework.ParamBase` which are created in dygraph.
            2. all parameters from transformed program can be found in self._params.
               Because they share same data with ParamBase of original dygraph.
        """
        if not isinstance(self._params, (list, tuple)):
            raise TypeError(
                "Type of self._params in PartialProgramLayer should be list or tuple, but received %s."
1056 1057
                % type(self._params)
            )
1058

1059 1060 1061
        param_and_buffer_names_set = set()
        for i, var in enumerate(self._params):
            # self._params constains parameters and buffers with persistable=True.
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            if not isinstance(var, (core.VarBase, core.eager.Tensor)):
1063
                raise TypeError(
1064 1065 1066 1067
                    'Type of self._params[{}] in PartialProgramLayer should be Parameter or Variable, but received {}.'.format(
                        i, type(var)
                    )
                )
1068
            param_and_buffer_names_set.add(var.name)
1069 1070

        for block in main_program.blocks:
1071
            for name, var in block.vars.items():
1072
                if isinstance(var, framework.Parameter):
1073
                    if name not in param_and_buffer_names_set:
1074
                        raise ValueError(
1075 1076 1077 1078 1079 1080
                            "\n\tWe don't support to define layer with parameters in the function decorated by `@to_static`."
                            "\n\tBut we found parameter(%s) was created in the decorated function."
                            "\n"
                            "\n\tRevise suggestion: "
                            "\n\t\t1. Please ensure all your sublayers are inheritted from nn.Layer."
                            "\n\t\t2. Please use nn.ParameterList and nn.LayerList as container instead of using a native Python container such as List"
1081 1082
                            % name
                        )
1083

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    def _valid_vars(self, vars):
        """
        Note: run_program_op.InferShape requires `X`/'Out' not be null.
        But it's common in dy2static, fake varBase is created to handle the
        problem.
        """
        return vars if vars else self.__fake_vars

1092

1093
def _create_fake_var():
1094
    """
1095
    Create a fake_var (force on CPU) to handle empty input or output
1096
    """
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    if not framework._in_eager_mode_:
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        return [
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            core.VarBase(
                core.VarDesc.VarType.FP32,
                [],
                "Fake_var",
                core.VarDesc.VarType.RAW,
                False,
            )
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        ]
    else:
1108
        return [
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            core.eager.Tensor(
                core.VarDesc.VarType.FP32,
                [],
                "Fake_var",
                core.VarDesc.VarType.RAW,
                False,
            )
1116
        ]
1117 1118 1119 1120 1121 1122 1123


def partial_program_from(concrete_program):
    inputs = concrete_program.inputs
    if inputs and isinstance(inputs[0], layers.Layer):
        inputs = inputs[1:]

1124 1125 1126 1127 1128 1129 1130
    return PartialProgramLayer(
        concrete_program.main_program,
        inputs,
        concrete_program.outputs,
        concrete_program.parameters,
        **concrete_program.kwargs
    )
1131 1132 1133


@switch_to_static_graph
1134
def add_build_strategy_for(
1135
    program, start_op_index, end_op_index, build_strategy=None, skip_vars=None
1136 1137
):
    if start_op_index < end_op_index:
1138 1139
        compiled_program = paddle.static.CompiledProgram(
            core.Graph(program.desc, start_op_index, end_op_index),
1140 1141
            build_strategy=build_strategy,
        )
1142 1143 1144
        if skip_vars:
            # TODO(Aurelius84): Need to unify name with C++, such as kSkipVarNames.
            compiled_program._graph.set("skip_gc_vars", set(skip_vars))
1145 1146 1147
        compiled_program._compile(
            core.Scope(), framework._current_expected_place()
        )
1148 1149 1150 1151 1152 1153 1154
        ir_graph = framework.IrGraph(compiled_program._graph)
        builded_program = ir_graph.to_program()
        if hasattr(compiled_program._program, 'lr_sheduler'):
            builded_program.lr_sheduler = compiled_program._program.lr_sheduler
    else:
        builded_program = program
    return builded_program