reshard.py 103.9 KB
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# Copyright (c) 2021 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

from functools import reduce

import paddle
import paddle.fluid.core as core
from paddle.utils import unique_name
from paddle.fluid.layer_helper import LayerHelper
from paddle.fluid.framework import Program, OpProtoHolder
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from paddle.distributed.fleet.meta_optimizers.common import OpRole
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import paddle.fluid.layers.utils as utils
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from .dist_context import DistributedContext
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from .dist_attribute import TensorDistributedAttribute
from .process_group import new_process_group
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from .cost import build_comm_desc, CommContext
from .cost import AllgatherOpCost, SendOpCost
from .cost import SliceOpCost, SplitOpCost, ConcatOpCost
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from .utils import is_gradient_clip_op
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# NOTE: If op in _g_special_ops or _g_gradient_clip_ops, it will not be resharded.
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_g_special_ops = ['check_finite_and_unscale', 'update_loss_scaling']
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_g_gradient_clip_ops = [
    "sum", "sqrt", "fill_constant", "elementwise_max", "elementwise_div"
]
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_g_subblock_ops = ["while", "conditional_block"]
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def get_var_with_recursion(var_name, block, program):
    """Get var in the parent block if not found in the current block"""
    var = None
    if var_name in block.vars:
        var = block.vars[var_name]
    else:
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        var = block._var_recursive(var_name)
        # parent_block = program.blocks[block.parent_idx]
        # if var_name in parent_block.vars:
        #     var = parent_block.vars[var_name]
    assert var is not None, "{} is not found".format(var.name)
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    return var
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class AllGatherOpDesc:
    """
    Describe the allgather op in the reshard phase.

    Args:
        group (list): Process group.
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        shape (list): The tensor shape.
        is_bool (bool): Whether allgather bool data. Default: False.
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    """

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    def __init__(self, group, shape, is_bool=False):
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        self._group = group
        self._desc = "all_gather"
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        self._shape = shape
        self._is_bool = is_bool

    @property
    def is_bool(self):
        return self._is_bool
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    @property
    def group(self):
        return self._group

    @property
    def desc(self):
        return self._desc

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    @property
    def shape(self):
        return self._shape

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    def __repr__(self):
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        return f"op: {self._desc}, group: {self._group}, shape: {self._shape}, is_bool: {self._is_bool}."
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class SendOpDesc:
    """
    Describe the send op in the reshard phase.

    Args:
        partition_index (list): The index of partition in complete tensor.
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        src (int): The source process to send.
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        dst (int): The destination process to receive.
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        is_bool (bool): Whether send bool data. Default: False.
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    """

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    def __init__(self, partition_index, src, dst, is_bool=False):
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        self._dst = dst
        self._partition_index = partition_index
        self._desc = "send"
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        self._shape = []
        self._is_bool = is_bool
        self._src = src

    @property
    def src(self):
        return self._src

    @property
    def is_bool(self):
        return self._is_bool
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    @property
    def partition_index(self):
        return self._partition_index

    @property
    def dst(self):
        return self._dst

    @property
    def desc(self):
        return self._desc

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    @property
    def shape(self):
        if not self._shape:
            for item in self.partition_index:
                self._shape.append(item[1] - item[0])
        return self._shape

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    def __repr__(self):
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        return f"op: {self._desc}, partition_index: {self._partition_index}, dst: {self._dst}, shape: {self._shape}, is_bool: {self._is_bool}."
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class RecvOpDesc:
    """
    Describe the recv op in the reshard op.

    Args:
        partition_index (list): The index of partition in complete tensor.
        src (int): The source process to send.
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        dst (int): The destination process to receive.
        is_bool (bool): Whether receive bool data. Default: False.
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    """

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    def __init__(self, partition_index, src, dst, is_bool=False):
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        self._src = src
        self._partition_index = partition_index
        self._desc = "recv"
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        self._shape = []
        self._is_bool = is_bool
        self._dst = dst

    @property
    def dst(self):
        return self._dst

    @property
    def is_bool(self):
        return self._is_bool
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    @property
    def partition_index(self):
        return self._partition_index

    @property
    def src(self):
        return self._src

    @property
    def desc(self):
        return self._desc

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    @property
    def shape(self):
        if not self._shape:
            for item in self.partition_index:
                self._shape.append(item[1] - item[0])
        return self._shape

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    def __repr__(self):
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        return f"op: {self._desc}, partition_index: {self._partition_index}, dst: {self._dst}, shape: {self._shape}, is_bool: {self._is_bool}."
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class SliceOpDesc:
    """
    Describe the slice op in the reshard phase.

    Args:
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        starts (list): It represents start indices of corresponding axis in ``axes``.
        ends (list):  It represents end indices of corresponding axis in ``axes``.
        axes (list):  Axes that `starts` and `ends` apply to.
        shape (list): The shape of the tensor to be sliced.
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    """

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    def __init__(self, starts, ends, axes, shape=None):
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        self._starts = starts
        self._ends = ends
        self._axes = axes
        self._desc = "slice"
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        self._shape = shape
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    @property
    def starts(self):
        return self._starts

    @property
    def ends(self):
        return self._ends

    @property
    def axes(self):
        return self._axes

    @property
    def desc(self):
        return self._desc

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    @property
    def shape(self):
        return self._shape

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    def __repr__(self):
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        if self._shape is not None:
            return f"op: {self._desc}, starts: {self._starts}, ends: {self._ends}, axes: {self._axes}, shape: {self._shape}."
        else:
            return f"op: {self._desc}, starts: {self._starts}, ends: {self._ends}, axes: {self._axes}."
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class ConcatOpDesc:
    """
    Describe the concat op in the reshard phase.

    Args:
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        partition_index_list (list): The list contains all partition index.
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    """

    def __init__(self, partition_index_list):
        self._partition_index_list = partition_index_list
        self._desc = "concat"

    @property
    def partition_index_list(self):
        return self._partition_index_list

    @property
    def desc(self):
        return self._desc

    def __repr__(self):
        return f"op: {self._desc}, partition_index_list: {self._partition_index_list}."


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class Inserter:
    """Insert op required in the reshard process."""
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    @staticmethod
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    def insert_cast_op(block, idx, tensor, op_role, tensor_type):
        # to avoid name conflict with framework
        new_var_name = paddle.fluid.unique_name.generate_with_ignorable_key(
            ".".join(["cast@RESHARD", 'tmp']))
        out = block.create_var(name=new_var_name,
                               dtype=tensor_type,
                               type=tensor.type,
                               lod_level=tensor.lod_level)
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        cast_op = block._insert_op(idx,
                                   type='cast',
                                   inputs={'X': [tensor]},
                                   outputs={'Out': [out]},
                                   attrs={
                                       'in_dtype': tensor.dtype,
                                       'out_dtype': out.dtype,
                                       'op_role': op_role
                                   })
        cast_op._set_attr('op_namescope', "/auto_parallel/reshard")
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        return out

    @staticmethod
    def insert_send_op(block, idx, tensor, src, dst, op_role):
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        """Insert send op into block at the given index."""
        op_type = 'send_v2'
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        # use pair comm group
        process_group = new_process_group([src, dst])
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        send_op = block._insert_op(idx,
                                   type=op_type,
                                   inputs={'X': [tensor]},
                                   attrs={
                                       'ring_id': process_group.id,
                                       'peer': process_group.ranks.index(dst),
                                       'use_calc_stream': True,
                                       'op_role': op_role,
                                       'dynamic_shape': True
                                   })
        send_op._set_attr('op_namescope', "/auto_parallel/reshard")
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    @staticmethod
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    def insert_recv_op(block, idx, tensor, src, dst, op_role):
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        """Insert recv op into block at the given index."""
        op_type = 'recv_v2'
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        # use pair group
        process_group = new_process_group([src, dst])
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        recv_op = block._insert_op(idx,
                                   type=op_type,
                                   inputs={'X': [tensor]},
                                   outputs={'Out': [tensor]},
                                   attrs={
                                       'ring_id': process_group.id,
                                       'peer': process_group.ranks.index(src),
                                       'out_shape': tensor.shape,
                                       'dtype': tensor.dtype,
                                       'use_calc_stream': True,
                                       'op_role': op_role,
                                       'dynamic_shape': True
                                   })
        recv_op._set_attr('op_namescope', "/auto_parallel/reshard")
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    @staticmethod
    def insert_reset_lod_op(block, idx, X, Y, op_role):
        """Insert reset_lod op into block at the given index."""

        new_var_name = paddle.fluid.unique_name.generate_with_ignorable_key(
            ".".join(["reset_lod@RESHARD", 'tmp']))
        reset_lod_out = block.create_var(name=new_var_name,
                                         shape=X.shape,
                                         type=X.type,
                                         dtype=X.dtype,
                                         lod_level=X.lod_level)

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        reset_op = block._insert_op(idx,
                                    type="lod_reset",
                                    inputs={
                                        'X': X,
                                        'Y': Y
                                    },
                                    outputs={'Out': reset_lod_out},
                                    attrs={'op_role': op_role})
        reset_op._set_attr('op_namescope', "/auto_parallel/reshard")
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        return reset_lod_out

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    @staticmethod
    def insert_concat_op(block, idx, tensors, axis, op_role):
        """Insert concat op into block at the given block."""
        inputs = {'X': tensors}
        attrs = {}
        attrs['axis'] = axis
        attrs['op_role'] = op_role
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        # to avoid name conflict with framework
        helper = LayerHelper('concat@RESHARD', **locals())
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        with paddle.static.program_guard(block.program):
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            out = block.create_var(
                name=paddle.fluid.unique_name.generate_with_ignorable_key(
                    ".".join([helper.name, 'tmp'])),
                dtype=tensors[0].dtype,
                shape=None,
                lod_level=tensors[0].lod_level,
                type=tensors[0].type,
                persistable=False,
                stop_gradient=False)
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        concat_op = block._insert_op(idx,
                                     type='concat',
                                     inputs=inputs,
                                     outputs={'Out': [out]},
                                     attrs=attrs)
        concat_op._set_attr('op_namescope', "/auto_parallel/reshard")
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        return out
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    @staticmethod
    def insert_slice_op(block, idx, tensor, starts, ends, axes, new_var_name,
                        op_role):
        """Insert slice op into block at the given block."""
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        # This is a hack to insert split op to get slice tensor
        # 1. [128, 128] => [64, 128]: split
        # 2. [128, 128] => [128, 128]: assign
        # 3. [128, 128] => [64, 64]: slice, it will replaced by multi split
        global_shape = tensor.shape
        slice_shape = [ends[i] - starts[i] for i in range(len(starts))]
        diff_dims = []
        for index, item in enumerate(slice_shape):
            if item != global_shape[index]:
                diff_dims.append(index)

        # use assign
        if len(diff_dims) == 0:
            out = block.create_var(name=new_var_name,
                                   dtype=tensor.dtype,
                                   type=tensor.type,
                                   shape=slice_shape,
                                   lod_level=tensor.lod_level)
            inputs = {'X': [tensor]}
            outputs = {"Out": [out]}
            attrs = {"in_place": False}
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            slice_op = block._insert_op(idx,
                                        type="assign",
                                        inputs=inputs,
                                        outputs=outputs,
                                        attrs=attrs)
            slice_op._set_attr('op_namescope', "/auto_parallel/reshard")
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            return out

        # use split once
        elif len(diff_dims) == 1:
            diff_dim = diff_dims[0]
            num_or_sections = global_shape[diff_dim] // slice_shape[diff_dim]
            axis = diff_dim
            cur_idx = starts[diff_dim] // slice_shape[diff_dim]
            input_shape = global_shape
            inputs = {'X': tensor}
            attrs = {'num': num_or_sections, 'axis': axis, 'op_role': op_role}
            new_shape = []
            for index, item in enumerate(tensor.shape):
                if index != axis:
                    new_shape.append(item)
                else:
                    new_shape.append(item // num_or_sections)
            with paddle.static.program_guard(block.program):
                outs = [
                    block.create_var(name=paddle.fluid.unique_name.
                                     generate_with_ignorable_key(".".join(
                                         ['split@RESHARD', 'tmp'])),
                                     dtype=tensor.dtype,
                                     shape=None,
                                     type=tensor.type,
                                     persistable=False,
                                     lod_level=tensor.lod_level,
                                     stop_gradient=False)
                    for i in range(num_or_sections)
                ]
                out = outs[cur_idx]
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            split_op = block._insert_op(idx,
                                        type="split",
                                        inputs=inputs,
                                        outputs={'Out': outs},
                                        attrs=attrs)
            split_op._set_attr('op_namescope', "/auto_parallel/reshard")
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            return out

        # use slice
        else:
            inputs = {'Input': tensor}
            infer_flags = list(1 for i in range(len(axes)))
            attrs = {
                "axes": axes,
                "starts": starts,
                "ends": ends,
                "infer_flags": infer_flags,
                'op_role': op_role
            }
            out = block.create_var(name=new_var_name,
                                   dtype=tensor.dtype,
                                   type=tensor.type,
                                   lod_level=tensor.lod_level)
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            slice_op = block._insert_op(idx,
                                        type="slice",
                                        inputs=inputs,
                                        outputs={'Out': [out]},
                                        attrs=attrs)
            slice_op._set_attr('op_namescope', "/auto_parallel/reshard")
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            return out
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    @staticmethod
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    def insert_split_op(block, idx, tensor, num_or_sections, op_role, axis=0):
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        """Insert split op into block at the given index."""
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        helper = LayerHelper('split@RESHARD', **locals())
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        input_shape = tensor.shape
        inputs = {'X': tensor}
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        attrs = {'num': num_or_sections, 'axis': axis, 'op_role': op_role}
        new_shape = []
        for index, item in enumerate(tensor.shape):
            if index != axis:
                new_shape.append(item)
            else:
                new_shape.append(item // num_or_sections)
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        with paddle.static.program_guard(block.program):
            outs = [
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                block.create_var(
                    name=paddle.fluid.unique_name.generate_with_ignorable_key(
                        ".".join([helper.name, 'tmp'])),
                    dtype=tensor.dtype,
                    shape=None,
                    lod_level=tensor.lod_level,
                    type=tensor.type,
                    persistable=False,
                    stop_gradient=False) for i in range(num_or_sections)
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            ]
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        split_op = block._insert_op(idx,
                                    type="split",
                                    inputs=inputs,
                                    outputs={'Out': outs},
                                    attrs=attrs)
        split_op._set_attr('op_namescope', "/auto_parallel/reshard")
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        return outs
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    @staticmethod
    def insert_fill_constant_op(block, idx, op_role):
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        """Insert fill constant op into block at the given index."""
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        # to avoid name conflict with framework
        helper = LayerHelper('fill_constant@RESHARD', **locals())
        # use paddle.int64 as dtype
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        with paddle.static.program_guard(block.program):
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            out = block.create_var(
                name=paddle.fluid.unique_name.generate_with_ignorable_key(
                    ".".join([helper.name, 'tmp'])),
                dtype=paddle.int64,
                shape=None,
                type=core.VarDesc.VarType.LOD_TENSOR,
                persistable=False,
                stop_gradient=False)
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        inputs = {}
        attrs = {'force_cpu': False}
        attrs['str_value'] = str(int("1"))
        attrs['value'] = int("1")
        attrs['dtype'] = out.dtype
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        attrs['op_role'] = op_role
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        utils.get_shape_tensor_inputs(inputs=inputs,
                                      attrs=attrs,
                                      shape=[0],
                                      op_type='fill_constant')
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        fillconstant_op = block._insert_op(idx,
                                           type='fill_constant',
                                           inputs=inputs,
                                           outputs={'Out': [out]},
                                           attrs=attrs)
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        out.stop_gradient = True
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        fillconstant_op._set_attr('op_namescope', "/auto_parallel/reshard")
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        return out

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    @staticmethod
    def insert_allgather_op(block, idx, tensor, ranks, op_role):
        """Insert allgather op into block at the given index."""
        tensor_list = []
        group = new_process_group(ranks)
        idx_offset = 0

        # instant process group before insert allgather op.
        if not group.is_instantiate():
            # insert fill_constant op
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            fill_constant_out = Inserter.insert_fill_constant_op(
                block, idx, op_role)
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            fill_constant_out.stop_gradient = True

            # insert c_allreduce_sum op
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            allreduce_op = block._insert_op(
                idx + 1,
                type="c_allreduce_sum",
                inputs={'X': [fill_constant_out]},
                outputs={'Out': [fill_constant_out]},
                attrs={
                    'ring_id': 0,
                    'use_calc_stream': True,
                    'op_role': op_role
                })
            allreduce_op._set_attr('op_namescope', "/auto_parallel/reshard")
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            # insert c_sync_calc_stream op
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            sync_calc_op = block._insert_op(
                idx + 2,
                type="c_sync_calc_stream",
                inputs={'X': [fill_constant_out]},
                outputs={'Out': [fill_constant_out]},
                attrs={'op_role': op_role})
            sync_calc_op._set_attr('op_namescope', "/auto_parallel/reshard")
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            idx_offset = 3

        # insert c_allgather op
        op_type = 'c_allgather'
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        # to avoid name conflict with framework
        helper = LayerHelper(op_type + "@RESHARD", **locals())
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        with paddle.static.program_guard(block.program):
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            allgather_out = block.create_var(
                name=paddle.fluid.unique_name.generate_with_ignorable_key(
                    ".".join([helper.name, 'tmp'])),
                dtype=tensor.dtype,
                shape=None,
                lod_level=tensor.lod_level,
                type=tensor.type,
                persistable=False,
                stop_gradient=False)
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        allgather_op = block._insert_op(idx + idx_offset,
                                        type=op_type,
                                        inputs={'X': [tensor]},
                                        outputs={'Out': [allgather_out]},
                                        attrs={
                                            'ring_id': group.id,
                                            'use_calc_stream': True,
                                            'nranks': group.nranks,
                                            'op_role': op_role
                                        })
        allgather_op._set_attr('op_namescope', "/auto_parallel/reshard")
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        idx_offset += 1

        # insert split op
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        split_out = Inserter.insert_split_op(block, idx + idx_offset,
                                             allgather_out, group.nranks,
                                             op_role)
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        idx_offset += 1
        tensor_list.extend(split_out)
        return tensor_list, idx_offset

    @staticmethod
    def concat_partitions_with_op(partition_tensor_list, tensor,
                                  partition_index, block, idx, op_role):
        """Concat the tensors and insert concat op."""
        if not partition_tensor_list:
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            partition_tensor_list.append((tensor, partition_index))
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        else:
            i = 0
            has_concat = False
            while i < len(partition_tensor_list):
                concat_axis, first_order, new_partition = Resharder.compute_concat_info(
                    partition_tensor_list[i][1], partition_index)
                if concat_axis != -1:
                    has_concat = True
                    _ = Inserter.insert_concat_op(block, idx[0], [partition_tensor_list[i][0], tensor], concat_axis, op_role) \
                        if first_order == 0 else \
                        Inserter.insert_concat_op(block, idx[0], [tensor, partition_tensor_list[i][0]], concat_axis, op_role)
                    partition_tensor_list.pop(i)
                    idx[0] += 1
                    Inserter.concat_partitions_with_op(partition_tensor_list, _,
                                                       new_partition, block,
                                                       idx, op_role)
                    break
                i += 1
            if not has_concat:
                partition_tensor_list.append((tensor, partition_index))


class Remover:
    """Remove var and op in the reshard process."""

    @staticmethod
    def remove_no_need_ops(auto_parallel_main_prog, dist_context, rank_id):
        """Remove no need ops in the main program"""
        not_remove_op_ref = [
            "create_py_reader", "create_double_buffer_reader", "read"
        ]
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        # NOTE: The nested sub block is not be supported now.
        remove_block_order = []
        for block_idx in Resharder.while_block_info:
            remove_block_order.append(block_idx)
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        for block_idx, block in enumerate(auto_parallel_main_prog.blocks):
            if block_idx not in remove_block_order:
                remove_block_order.append(block_idx)

        # the sub block should be removed first
        for block_idx in remove_block_order:
            remove_op_idx = []
            block = auto_parallel_main_prog.blocks[block_idx]
            ops = block.ops
            vars = block.vars
            for idx, op in enumerate(ops):
                if op.type == "read":
                    dim_list = []
                    for var_name in op.output_arg_names:
                        dim_list.extend(
                            get_var_with_recursion(
                                var_name, block, auto_parallel_main_prog).shape)
                    for i in range(idx, -1, -1):
                        if ops[i].type == "create_py_reader":
                            ops[i]._set_attr("shape_concat", dim_list)
                            break
                    continue
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                # replace the input and output of c_sync_comm_stream op when in pipeline scene.
                if op.type == "c_sync_comm_stream":
                    need_save = []
                    for var_name in op.input_arg_names:
                        process_mesh = dist_context.get_tensor_dist_attr_for_program(
                            get_var_with_recursion(
                                var_name, block,
                                auto_parallel_main_prog)).process_mesh
                        if rank_id in process_mesh.processes:
                            need_save.append(var_name)
                    if not need_save:
                        remove_op_idx.append(idx)
                        continue
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                    proto = OpProtoHolder.instance().get_op_proto(op.type)
                    op.desc.set_input(proto.inputs[0].name, need_save)
                    op.desc.set_output(proto.outputs[0].name, need_save)
                    continue
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                # judge the other op whether should be removed.
                op_dist_attr = dist_context.get_op_dist_attr_for_program(op)
                if op_dist_attr is not None:
                    op_process_mesh = op_dist_attr.process_mesh
                    if rank_id not in op_process_mesh.processes and op.type not in not_remove_op_ref:
                        remove_op_idx.append(idx)

            for idx in remove_op_idx[::-1]:
                block._remove_op(idx)

    @staticmethod
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    def remove_no_need_vars(auto_parallel_main_prog, dist_params_grads,
                            feed_var_names):
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        """Remove no need vars in the main program"""
        for block_idx, block in enumerate(auto_parallel_main_prog.blocks):
            remove_vars = set()
            ops = block.ops
            vars = block.vars
            need_vars = set()
            for op in ops:
                for var_name in op.input_arg_names:
                    if var_name in vars:
                        need_vars.add(var_name)
                for var_name in op.output_arg_names:
                    if var_name in vars:
                        need_vars.add(var_name)
            for var in vars:
                if var not in need_vars:
                    remove_vars.add(var)

            # change dist_params_grads, the optimize op just in block 0.
            if block_idx == 0:
                param_grad_map = {}
                for op in ops:
                    if int(op.attr('op_role')) == int(OpRole.Optimize):
                        if "Param" in op.input_names and "Grad" in op.input_names:
                            param_name = op.input("Param")[0]
                            grad_name = op.input("Grad")[0]
                            param_grad_map[param_name] = grad_name

                need_remove_idx = []
                for idx, item in enumerate(dist_params_grads):
                    if item[0].name not in param_grad_map.keys():
                        need_remove_idx.append(idx)

                for idx in need_remove_idx[::-1]:
                    dist_params_grads.pop(idx)

                idx = 0
                while idx < len(dist_params_grads):
                    param_name = dist_params_grads[idx][0].name
                    grad_name = dist_params_grads[idx][1].name
                    if grad_name != param_grad_map[param_name]:
                        dist_params_grads[idx] = (
                            vars[param_name], vars[param_grad_map[param_name]])
                    idx += 1

            for var in remove_vars:
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                if var in feed_var_names:
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                    continue
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                block._remove_var(var)

    @staticmethod
    def remove_no_need_in_main(auto_parallel_main_prog, dist_context, rank_id,
                               dist_params_grads):
        """Remove no need vars and ops in the main program."""
        Remover.remove_no_need_ops(auto_parallel_main_prog, dist_context,
                                   rank_id)
        Resharder.change_while_op_input_and_output(auto_parallel_main_prog,
                                                   dist_context)
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        # 'feed_var_names' cannot be removed from auto_parallel_main_prog
        feed_var_names = []
        for var in sum(list(dist_context.serial_feed_vars.values()), []):
            feed_var_names.append(var.name)
        Remover.remove_no_need_vars(auto_parallel_main_prog, dist_params_grads,
                                    feed_var_names)
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    @staticmethod
    def remove_no_need_in_startup(auto_parallel_main_prog,
                                  auto_parallel_startup_prog):
        """Remove no need vars and ops in the startup program."""
        main_input_vars = set()
        main_ops = auto_parallel_main_prog.global_block().ops
        for op in main_ops:
            for var_name in op.input_arg_names:
                main_input_vars.add(var_name)
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        startup_block = auto_parallel_startup_prog.global_block()
        startup_output_vars = set()
        startup_ops = startup_block.ops
        for op in startup_ops:
            # skip c_sync_comm_stream op
            if op.type == "c_sync_comm_stream":
                continue
            for var_name in op.output_arg_names:
                startup_output_vars.add(var_name)
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        need_vars = set()
        for var_name in startup_output_vars:
            if var_name in main_input_vars:
                need_vars.add(var_name)

        startup_ops = startup_block.ops
        actual_need_vars = set()
        for idx, op in enumerate(startup_ops):
            is_need_op = False
            if op.type == "c_sync_comm_stream":
                continue
            for var_name in op.output_arg_names:
                if var_name in need_vars:
                    is_need_op = True
                    break
            if is_need_op:
                for var_name in op.output_arg_names:
                    actual_need_vars.add(var_name)
                for var_name in op.input_arg_names:
                    actual_need_vars.add(var_name)
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        remove_vars = set()
        for var_name in startup_block.vars:
            if var_name not in actual_need_vars:
                remove_vars.add(var_name)
        for var in remove_vars:
            startup_block._remove_var(var)
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        remove_op_idx = []
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        vars = startup_block.vars
        for idx, op in enumerate(startup_block.ops):
            is_no_need_op = False
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            if op.type == "c_sync_comm_stream":
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                var_names = []
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                for var_name in op.input_arg_names:
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                    if var_name in vars:
                        var_names.append(var_name)
                if not var_names:
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                    remove_op_idx.append(idx)
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                else:
                    proto = OpProtoHolder.instance().get_op_proto(op.type)
                    op.desc.set_input(proto.inputs[0].name, var_names)
                    op.desc.set_output(proto.outputs[0].name, var_names)
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                continue
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            for var_name in op.output_arg_names:
                if var_name not in vars:
                    is_no_need_op = True
                    break
            if is_no_need_op:
                remove_op_idx.append(idx)
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        for idx in remove_op_idx[::-1]:
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            startup_block._remove_op(idx)
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class Resharder:
    """
    Reshard tensor in the program according to its distributed attribute and corresponding op distributed attribute.
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    Args:
        auto_parallel_main_prog (Program): An auto parallel main program.
        auto_parallel_startup_prog (Program): An auto parallel startup program.
        rank_id (int): The process id.
        dist_context (DistributedContext): The distributed context of this rank.
        dist_params_grads (list): The list contains the tuple of param and grad.
        batch_size (int): The batch size. Default: None.
    """
    while_block_info = {}

    def __init__(self,
                 auto_parallel_main_prog,
                 auto_parallel_startup_prog,
                 rank_id,
                 dist_context,
                 dist_params_grads,
                 batch_size=None):
        assert isinstance(auto_parallel_main_prog, Program), "The type of auto_parallel_main_prog should be Program, " \
                                            "but got {}.".format(type(auto_parallel_main_prog))
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        if auto_parallel_startup_prog is not None:
            assert isinstance(auto_parallel_main_prog, Program), "The type of auto_parallel_startup_prog should be Program or None, " \
                                                "but got {}.".format(type(auto_parallel_startup_prog))
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        assert isinstance(rank_id, int), "The type of rank_id should be int, " \
                                            "but got {}.".format(type(rank_id))
        assert isinstance(dist_context, DistributedContext), "The type of dist_context should be DistributedContext, " \
                                            "but got {}.".format(type(dist_context))
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        if batch_size is not None:
            assert isinstance(batch_size, int), "The type of batch_size should be int, " \
                                                "but got {}.".format(type(batch_size))

        self._auto_parallel_main_prog = auto_parallel_main_prog
        self._auto_parallel_startup_prog = auto_parallel_startup_prog
        self._rank_id = rank_id
        self._dist_context = dist_context
        self._dist_params_grads = dist_params_grads
        self._batch_size = batch_size
        self._has_sent = {}
        self._has_recv = {}
        self._has_allgather = {}
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        # to avoid reshard repeatly
        self._has_resharded = {}
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    @property
    def auto_parallel_main_prog(self):
        return self._auto_parallel_main_prog
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    @property
    def auto_parallel_startup_prog(self):
        return self._auto_parallel_startup_prog
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    @property
    def rank_id(self):
        return self._rank_id
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    @property
    def dist_context(self):
        return self._dist_context
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    @property
    def dist_params_grads(self):
        return self._dist_params_grads
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    @property
    def batch_size(self):
        return self._batch_size
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    @property
    def has_sent(self):
        return self._has_sent
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    @property
    def has_recv(self):
        return self._has_recv
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    @property
    def has_allgather(self):
        return self._has_allgather

    @staticmethod
    def compute_partition_shape(complete_shape, dims_mapping, process_shape):
        """Compute the shape of partition."""
        partition_shape = []
        for idx, item in enumerate(complete_shape):
            if dims_mapping[idx] == -1:
                partition_shape.append(item)
            else:
                partition_shape.append(item // process_shape[dims_mapping[idx]])
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        return partition_shape
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    @staticmethod
    def compute_process_index(process, process_group, process_shape):
        """Compute the index of process_shape corresponding to the process."""
        relative_process = process_group.index(process)
        process_index = []
        product = reduce(lambda x, y: x * y, process_shape)

        for i in range(len(process_shape)):
            idx = relative_process // (product // process_shape[i])
            product = product // process_shape[i]
            relative_process = relative_process - relative_process // product * product
            process_index.append(idx)

        return process_index

    @staticmethod
    def compute_partition_index(process, complete_shape, dims_mapping,
                                process_shape, process_group):
        """Compute the partition index in complete tensor."""
        partition_shape = Resharder.compute_partition_shape(
            complete_shape, dims_mapping, process_shape)
        process_index = Resharder.compute_process_index(process, process_group,
                                                        process_shape)
        partition_index = []

        for i in range(len(complete_shape)):
            if dims_mapping[i] == -1:
                partition_index.append([0, partition_shape[i]])
            else:
                partition_index.append([
                    process_index[dims_mapping[i]] * partition_shape[i],
                    (process_index[dims_mapping[i]] + 1) * partition_shape[i]
                ])

        return partition_index

    @staticmethod
    def compute_concat_info(partition_index_x, partition_index_y):
        """Judge whether two partition can be concatenated and compute concatenated partition index."""
        differ_count = 0
        concat_axis = -1
        first_order = 0
        new_partition = []

        for idx, item in enumerate(partition_index_x):
            if item != partition_index_y[idx]:
                differ_count += 1
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                if item[1] == partition_index_y[idx][
                        0] and item[0] < partition_index_y[idx][1]:
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                    concat_axis = idx
                    new_partition.append([item[0], partition_index_y[idx][1]])
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                elif item[0] == partition_index_y[idx][
                        1] and item[1] > partition_index_y[idx][0]:
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                    first_order = 1
                    concat_axis = idx
                    new_partition.append([partition_index_y[idx][0], item[1]])
            else:
                new_partition.append(item)
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        if differ_count == 1:
            return concat_axis, first_order, new_partition
        else:
            return -1, first_order, new_partition

    @staticmethod
    def compute_complete_shape(slice_shape, process_shape, dims_mapping):
        """compute the complete shape of the slice tensor  with its process mesh and dims mapping"""
        complete_shape = []
        for idx, item in enumerate(slice_shape):
            if dims_mapping[idx] == -1:
                complete_shape.append(item)
            else:
                complete_shape.append(item * process_shape[dims_mapping[idx]])
        return complete_shape
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    @staticmethod
    def concat_partitions(partition_index_list, partition_index):
        """Concat the given partitions without inserting concat op."""
        if not partition_index_list:
            partition_index_list.append(partition_index)
        else:
            i = 0
            has_concat = False
            while i < len(partition_index_list):
                concat_axis, _, new_partition = Resharder.compute_concat_info(
                    partition_index_list[i], partition_index)
                if concat_axis != -1:
                    has_concat = True
                    partition_index_list.pop(i)
                    Resharder.concat_partitions(partition_index_list,
                                                new_partition)
                    break
                i += 1
            if not has_concat:
                partition_index_list.append(partition_index)

    @staticmethod
    def change_while_op_input_and_output(auto_parallel_main_prog, dist_context):
        """Change while op input and output after the corresponding sub block ops removed"""
        for sub_block_idx in Resharder.while_block_info:
            sub_block = auto_parallel_main_prog.blocks[sub_block_idx]
            parent_while_op_id = Resharder.while_block_info[sub_block_idx][
                "op_id"]
            parent_block = auto_parallel_main_prog.blocks[sub_block.parent_idx]

            sub_block_op_inputs = set()
            sub_block_op_outputs = []
            for op in sub_block.ops:
                # skip the input and output of operators inserted in the reshard phase
                dist_op = dist_context.get_dist_op_for_program(op)
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                if dist_op or (op.type == "slice" and not dist_op) or (
                        op.type == "split"
                        and not dist_op) or (op.type == "assign"
                                             and not dist_op):
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                    for var_name in op.output_arg_names:
                        if var_name not in sub_block_op_outputs:
                            sub_block_op_outputs.append(var_name)
                    for var_name in op.input_arg_names:
                        sub_block_op_inputs.add(var_name)

            # find the while op
            while_op = None
            for op in parent_block.ops:
                if op.desc.id() == parent_while_op_id and op.type == "while":
                    while_op = op
                    break

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            if while_op is None:
                continue
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            # find the actual input and output of while op
            proto = OpProtoHolder.instance().get_op_proto(while_op.type)
            new_X = []
            for var_name in while_op.input("X"):
                if var_name in sub_block_op_inputs:
                    new_X.append(var_name)
            assert new_X
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            new_X.sort()
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            while_op.desc.set_input(proto.inputs[0].name, new_X)

            new_Out = []
            for var_name in while_op.output("Out"):
                for output_name in sub_block_op_outputs[::-1]:
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                    if output_name.find(var_name) != -1 and (
                            len(var_name) == len(output_name)
                            or "@RESHARD" in output_name):
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                        if output_name not in new_Out:
                            new_Out.append(output_name)
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            assert new_Out
            while_op.desc.set_output(proto.outputs[0].name, new_Out)

    def is_overlapped(self, shape_x, shape_y):
        """Judge whether two partitions intersect on the specified dimension."""
        overlapped = False
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        if (shape_y[0] <= shape_x[0] < shape_y[1]) or (shape_x[0] <= shape_y[0]
                                                       < shape_x[1]):
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            overlapped = True
        return overlapped

    def is_unshard(self, dims_mapping):
        for dim in dims_mapping:
            if dim != -1:
                return False
        return True

    def is_special_op(self, op):
1102
        global _g_special_ops, _g_gradient_clip_ops
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        if op.type in _g_special_ops:
            return True
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        if is_gradient_clip_op(op) and op.type in _g_gradient_clip_ops:
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            return True
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        return False

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    def is_condition_replicative(self, op):
        sub_block = self.auto_parallel_main_prog.blocks[op.attr("sub_block").id]
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        if op.type == "while":
            input_cond = op.input("Condition")
        elif op.type == "conditional_block":
            input_cond = op.input("Cond")
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        # the dims mapping of condition tensor should be replicative
1118
        for var_name in input_cond:
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            var = get_var_with_recursion(var_name, sub_block,
                                         self.auto_parallel_main_prog)
            dist_tensor = self.dist_context.get_dist_tensor_for_program(var)
            tensor_dist_attr = dist_tensor.dist_attr
            var_dims_mapping = tensor_dist_attr.dims_mapping
            for dim in var_dims_mapping:
                if dim != -1:
                    return False
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        return True

1130
    def need_reshard(self, dist_tensor, dist_attr, op_input=True, dist_op=None):
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        """Judge the tensor whether needs to be resharded."""
        is_reshard = False
        tensor_dist_attr = dist_tensor.dist_attr
        tensor_dims_mapping = tensor_dist_attr.dims_mapping
        tensor_process_mesh = tensor_dist_attr.process_mesh
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        # dist_attr is [process_mesh, dims_mapping] and process_mesh is not a union
        op_process_mesh = dist_attr[0]

1140
        if op_input:
1141
            op_input_dims_mapping = dist_attr[1]
1142
            if all(
1143
                    map(lambda x: x, [
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                        tensor_dims_mapping, tensor_process_mesh,
                        op_input_dims_mapping, op_process_mesh
                    ])):
1147
                # judge whether need reshard by dims_mapping
1148
                if tensor_dims_mapping != op_input_dims_mapping:
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                    if tensor_process_mesh not in self.dist_context.process_meshes:
                        # assert whether -1 when union.
                        for item in tensor_dims_mapping:
                            if item != -1:
                                raise ValueError(
                                    "The dim must be -1 when tensor process mesh is a union."
                                )
                        # tensor process_mesh: [0, 1, 2, 3], dims_mapping: [-1, -1]
                        # op process_mesh: [4, 5], dims_mapping: [0, -1]
                        # reshard is not supported such as above
                        if not is_reshard:
                            return is_reshard
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                        else:
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                            raise ValueError(
                                "it is not supported that tensor process mesh is a union and needs reshard."
                            )
                    is_reshard = True

                # judge whether need reshard by process_mesh
                if tensor_process_mesh != op_process_mesh:
                    is_reshard = True
1170
        else:
1171
            op_output_dims_mapping = dist_attr[1]
1172
            if all(
1173
                    map(lambda x: x, [
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                        tensor_dims_mapping, tensor_process_mesh,
                        op_output_dims_mapping, op_process_mesh
                    ])):
                if tensor_dims_mapping != op_output_dims_mapping:
                    raise ValueError(
                        "It is not supported that tensor dims mapping is different from op output dims mapping."
                    )
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                if tensor_process_mesh != op_process_mesh:
                    is_reshard = True
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        return is_reshard

    def get_op_process_meshes(self, op):
1187
        """Get sub process meshes of the given op if op process mesh is a union."""
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        process_meshes = []
        dist_op = self.dist_context.get_dist_op_for_program(op)
        op_process_mesh = dist_op.dist_attr.process_mesh
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        for process_mesh in self.dist_context.process_meshes:
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            if set(process_mesh.processes) & (set(
                    op_process_mesh.processes)) and len(
1195
                        process_mesh.processes) < len(
1196
                            op_process_mesh.processes):
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                process_meshes.append(process_mesh)

        # it means the process mesh is not a union when process meshes is null
        if not process_meshes:
            process_meshes.append(op_process_mesh)

        return process_meshes

1205
    def find_op_desc_seq(self, dist_tensor, dist_attr, serial=False):
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        """
        Find the op description sequence to reshard the source tensor for matching the op requirement.

        Args:
            dist_tensor (DistributedTensor): A distributed tensor.
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            dist_attr (list): A list contains process_mesh and dims_mapping such as [process_mesh, dims_mapping].
            serial (bool): If serial is true, the dist tensor and dist op come from serial program. Otherwise, they come from auto program.
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        Returns:
            Dict, the dict represents the required op description sequence corresponding to process, The key of dict is
            process and value is a list containing op description.
        """
        tensor_dist_attr = dist_tensor.dist_attr
        source_tensor = dist_tensor.serial_tensor
        tensor_name = source_tensor.name
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        source_dims_mapping = tensor_dist_attr.dims_mapping
        source_process_mesh = tensor_dist_attr.process_mesh
        source_process_group = source_process_mesh.processes
        source_process_shape = source_process_mesh.topology

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        target_process_mesh = dist_attr[0]
        target_dims_mapping = dist_attr[1]
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        target_process_group = target_process_mesh.processes
        target_process_shape = target_process_mesh.topology

        if source_tensor.shape[0] < 0:
1233
            assert source_tensor.shape[0] == -1
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            new_shape = list(source_tensor.shape)
            new_shape[0] = self.batch_size
            source_tensor.desc.set_shape(new_shape)

        complete_shape = Resharder.compute_complete_shape(
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            source_tensor.shape, source_process_shape,
            source_dims_mapping) if not serial else source_tensor.shape
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        op_desc_seq = {}

        # TODO: if the target process group has the same process with source process group
        if set(target_process_group).intersection(set(
                source_process_group)) and set(target_process_group).difference(
                    set(source_process_group)):
            pass

        elif target_process_group != source_process_group:
            partition_process_mapping_list = []
            for source_process in source_process_group:
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                # get partition index of source process
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                source_partition_index = Resharder.compute_partition_index(source_process, complete_shape, source_dims_mapping, \
                                                                source_process_shape, source_process_group)
                if not partition_process_mapping_list:
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                    # the item in partition_process_mapping_list is source_partition_index, which processes and whether has been used
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                    partition_process_mapping_list.append(
                        [source_partition_index, [source_process], [False]])
1259
                else:
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                    partition_list = list(
                        [item[0] for item in partition_process_mapping_list])
                    process_list = list(
                        [item[1] for item in partition_process_mapping_list])
                    has_used = list(
                        [item[2] for item in partition_process_mapping_list])
1266

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                    if partition_list.count(source_partition_index) == 1:
                        index = partition_list.index(source_partition_index)
                        process_list[index].append(source_process)
                        has_used[index].append(False)
                    else:
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                        partition_process_mapping_list.append(
                            [source_partition_index, [source_process], [False]])
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            for target_process in target_process_group:
1276
                # has_sent means the source_partition_index has been sent to target_process
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                has_sent = []
                target_partition_index = Resharder.compute_partition_index(
                    target_process, complete_shape, target_dims_mapping,
                    target_process_shape, target_process_group)
                partition_index_list = []
                all_partition_index_list = []
                for source_process in source_process_group:
                    source_partition_index = Resharder.compute_partition_index(
                        source_process, complete_shape, source_dims_mapping,
                        source_process_shape, source_process_group)
                    to_send_process = None
                    if all(_ for _ in list(map(self.is_overlapped, source_partition_index, target_partition_index))) \
                            and source_partition_index not in has_sent:
                        idx = list([
                            item[0] for item in partition_process_mapping_list
                        ]).index(source_partition_index)
                        has_used = list([
                            item[2] for item in partition_process_mapping_list
                        ])[idx]
                        process_list = list([
                            item[1] for item in partition_process_mapping_list
                        ])[idx]
                        i = 0
                        while i < len(has_used):
                            if not has_used[i]:
                                to_send_process = process_list[i]
                                has_used[i] = True
                                break
                            i += 1
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                        if i == len(has_used):
                            has_used = list(map(lambda x: False, has_used))
                            to_send_process = process_list[0]
                            has_used[0] = True
                        assert to_send_process is not None, "Failed to find the send process."

                        if to_send_process not in op_desc_seq.keys():
                            op_desc_seq[to_send_process] = []
                        if target_process not in op_desc_seq.keys():
                            op_desc_seq[target_process] = []
                        all_partition_index_list.append(source_partition_index)

                        # append send and recv op desc
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                        is_bool = (
                            dist_tensor.serial_tensor.dtype == paddle.bool)
1322
                        send_op_desc = SendOpDesc(source_partition_index,
1323 1324 1325
                                                  to_send_process,
                                                  target_process,
                                                  is_bool=is_bool)
1326
                        recv_op_desc = RecvOpDesc(source_partition_index,
1327 1328 1329
                                                  to_send_process,
                                                  target_process,
                                                  is_bool=is_bool)
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                        op_desc_seq[to_send_process].append(send_op_desc)
                        op_desc_seq[target_process].append(recv_op_desc)
                        has_sent.append(source_partition_index)
                        Resharder.concat_partitions(partition_index_list,
                                                    source_partition_index)

                # append concat op desc
                op_desc_seq[target_process].append(
                    ConcatOpDesc(all_partition_index_list))

                # append slice op desc
                slice_starts = []
                slice_ends = []
                slices_axes = []
                concatenated_partition_index = partition_index_list[0]
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                to_slice_tensor_shape = []

1347
                for idx, item in enumerate(concatenated_partition_index):
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                    slice_starts.append(target_partition_index[idx][0] -
                                        item[0])
1350 1351
                    slice_ends.append(target_partition_index[idx][1] - item[0])
                    slices_axes.append(idx)
1352 1353
                    to_slice_tensor_shape.append(item[1] - item[0])

1354
                op_desc_seq[target_process].append(
1355 1356 1357 1358
                    SliceOpDesc(slice_starts,
                                slice_ends,
                                slices_axes,
                                shape=to_slice_tensor_shape))
1359

1360
        # in the same process group, it will use allgahther and slice op.
1361
        else:
1362
            # NOTE: It just supports even partition scene.
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            partition_index_list = []
            all_partition_index_list = []
            process_index = []
            for source_process in source_process_group:
                source_partition_index = Resharder.compute_partition_index(
                    source_process, complete_shape, source_dims_mapping,
                    source_process_shape, source_process_group)
                if source_partition_index not in partition_index_list:
                    partition_index_list.append(source_partition_index)
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                    process_index.append([[
                        source_process,
                    ], source_partition_index])
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                else:
                    process_index[partition_index_list.index(
                        source_partition_index)][0].append(source_process)

            for i in range(len(process_index[0][0])):
                group = []
                for j in range(len(process_index)):
                    group.append(process_index[j][0][i])
                    if i == 0:
                        all_partition_index_list.append(process_index[j][1])
                for process in group:
                    # append slice op desc
                    slice_starts = []
                    slice_ends = []
                    slices_axes = []
                    target_partition_index = Resharder.compute_partition_index(
                        process, complete_shape, target_dims_mapping,
                        target_process_shape, target_process_group)
                    for idx, item in enumerate(target_partition_index):
                        slice_starts.append(item[0])
                        slice_ends.append(item[1])
                        slices_axes.append(idx)

1398
                    to_slice_tensor_shape = dist_tensor.global_sizes()
1399 1400
                    slice_op_desc = SliceOpDesc(starts=slice_starts,
                                                ends=slice_ends,
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                                                axes=slices_axes,
                                                shape=to_slice_tensor_shape)
                    allgather_shape = None if not serial else dist_tensor.local_sizes(
                        rank=process)
                    op_desc_seq[process] = [AllGatherOpDesc(group=group, shape=allgather_shape, is_bool=(source_tensor.dtype == paddle.bool)),
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                                            ConcatOpDesc(partition_index_list=all_partition_index_list), slice_op_desc] \
                        if len(group) > 1 else [slice_op_desc]

        return op_desc_seq

    def parse_op_desc(self, block, op_desc_seq, var_name, reshard_op,
1412
                      dist_attr):
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        """Parse op desc sequence and insert op in the block"""
        tensor_list = []
        partition_tensor_list = []
        if self.rank_id not in op_desc_seq.keys():
            return
        op_desc_list = op_desc_seq[self.rank_id]

        idx = None
        for index, op in list(enumerate(block.ops)):
            if op.desc.id == reshard_op.desc.id:
                idx = index
                break
        assert idx is not None, "The op for reshard cannot be found in the rank {} program.".format(
            self.rank_id)

        matched_op = block.ops[idx]
        source_tensor = get_var_with_recursion(var_name, block,
                                               self.auto_parallel_main_prog)
        for op_desc in op_desc_list:
            if isinstance(op_desc, AllGatherOpDesc):  # noqa: F401
                if var_name not in self.has_allgather.keys():
                    self.has_allgather[var_name] = []
1435 1436
                if not self.has_allgather[var_name] or op_desc.group not in list(
                        map(lambda x: x[0], self.has_allgather[var_name])):
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                    if op_desc.is_bool:
                        # for bool data allgather, cast to int64 -> allgather -> cast bool
                        out_cast = Inserter.insert_cast_op(
                            block, idx, source_tensor,
                            reshard_op.attr('op_role'), paddle.int64)
                        tensor_list, idx_offset = Inserter.insert_allgather_op(
                            block, idx + 1, out_cast, op_desc.group,
                            reshard_op.attr('op_role'))
                        idx += idx_offset
                        tensor_name_list = []
                        for var in tensor_list:
                            out_cast = Inserter.insert_cast_op(
                                block, idx, var, reshard_op.attr('op_role'),
                                paddle.bool)
                            tensor_name_list.append(out_cast.name)
                            idx += 1
                        self.has_allgather[var_name].append(
                            [op_desc.group, tensor_name_list])
                    else:
                        tensor_list, idx_offset = Inserter.insert_allgather_op(
                            block, idx, source_tensor, op_desc.group,
                            reshard_op.attr('op_role'))
                        idx += idx_offset
                        tensor_name_list = [var.name for var in tensor_list]
                        self.has_allgather[var_name].append(
                            [op_desc.group, tensor_name_list])
1463 1464 1465 1466
                else:
                    for item in self.has_allgather[var_name]:
                        if op_desc.group == item[0]:
                            tensor_list = [
C
caozhou 已提交
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                                get_var_with_recursion(
                                    var_name, block,
                                    self.auto_parallel_main_prog)
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                                for var_name in item[1]
                            ]
                            break
                assert tensor_list, "The result of parsing allgather op should not be None."

            elif isinstance(op_desc, SendOpDesc):
                if var_name not in self.has_sent.keys():
                    self.has_sent[var_name] = []
                if op_desc.dst not in self.has_sent[var_name]:
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                    if op_desc.is_bool:
                        out_cast = Inserter.insert_cast_op(
                            block, idx, source_tensor,
                            reshard_op.attr('op_role'), paddle.int64)
                        Inserter.insert_send_op(block, idx + 1, out_cast,
                                                op_desc.src, op_desc.dst,
                                                reshard_op.attr('op_role'))
                        idx += 2
                    else:
                        Inserter.insert_send_op(block, idx, source_tensor,
                                                op_desc.src, op_desc.dst,
                                                reshard_op.attr('op_role'))
                        idx += 1
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                    self.has_sent[var_name].append(op_desc.dst)

            elif isinstance(op_desc, RecvOpDesc):
                if var_name not in self.has_recv.keys():
                    self.has_recv[var_name] = {}
                if op_desc.src not in self.has_recv[var_name].keys():
                    partition_index = op_desc.partition_index
                    shape = []
                    for index in partition_index:
                        shape.append(index[1] - index[0])
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                    if op_desc.is_bool:
                        # for bool data, recv int64 -> cast to bool
                        recv_tensor = block.create_var(
                            name=unique_name.generate(var_name + "@recv"),
                            shape=shape,
                            lod_level=source_tensor.lod_level,
                            dtype=paddle.int64,
                            type=source_tensor.type)
                        Inserter.insert_recv_op(block, idx, recv_tensor,
                                                op_desc.src, op_desc.dst,
                                                reshard_op.attr('op_role'))
                        out_cast = Inserter.insert_cast_op(
                            block, idx + 1, recv_tensor,
                            reshard_op.attr('op_role'), paddle.bool)
                        tensor_list.append(out_cast)
                        idx += 2
                        self.has_recv[var_name][op_desc.src] = out_cast
                    else:
                        recv_tensor = block.create_var(
                            name=unique_name.generate(var_name + "@recv"),
                            shape=shape,
                            lod_level=source_tensor.lod_level,
                            dtype=source_tensor.dtype,
                            type=source_tensor.type)
                        Inserter.insert_recv_op(block, idx, recv_tensor,
                                                op_desc.src, op_desc.dst,
                                                reshard_op.attr('op_role'))

                        # for lod tensor, need reset lod after received
                        if recv_tensor.lod_level != 0:
                            set_lod = False
                            # use data lod to reset tensor lod
                            for tmp_block in self.auto_parallel_main_prog.blocks:
                                for tmp_var_name in tmp_block.vars:
                                    tmp_var = tmp_block.vars[tmp_var_name]
                                    if tmp_var.is_data and tmp_var.lod_level == recv_tensor.lod_level:
                                        reset_lod_out = Inserter.insert_reset_lod_op(
                                            block, idx + 1, recv_tensor,
                                            tmp_var, reshard_op.attr('op_role'))
                                        tensor_list.append(reset_lod_out)
                                        idx += 2
                                        self.has_recv[var_name][
                                            op_desc.src] = reset_lod_out
                                        set_lod = True
                                        break
                                if set_lod:
                                    break
                            assert set_lod is True
                        else:
                            tensor_list.append(recv_tensor)
                            idx += 1
                            self.has_recv[var_name][op_desc.src] = recv_tensor
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                else:
                    tensor_list.append(self.has_recv[var_name][op_desc.src])

            elif isinstance(op_desc, ConcatOpDesc):
                partition_index_list = op_desc.partition_index_list
                idx_list = [idx]
                for index, tensor in enumerate(tensor_list):
                    Inserter.concat_partitions_with_op(
                        partition_tensor_list, tensor,
                        partition_index_list[index], block, idx_list,
                        reshard_op.attr('op_role'))
                idx = idx_list[0]

            elif isinstance(op_desc, SliceOpDesc):
                assert len(
                    partition_tensor_list) == 1 or not partition_tensor_list
                to_slice_tensor = partition_tensor_list[0][0] if len(
                    partition_tensor_list) == 1 else source_tensor
                new_name = unique_name.generate(var_name + "@RESHARD")
                target_tensor = Inserter.insert_slice_op(
                    block,
                    idx,
                    to_slice_tensor,
                    starts=op_desc.starts,
                    ends=op_desc.ends,
                    axes=op_desc.axes,
                    new_var_name=new_name,
                    op_role=reshard_op.attr('op_role'))

1583 1584 1585
                process_mesh = dist_attr[0]
                dims_mapping = dist_attr[1]

1586 1587 1588 1589 1590 1591
                tensor_attr = TensorDistributedAttribute()
                tensor_attr.dims_mapping = dims_mapping
                tensor_attr.process_mesh = process_mesh
                self.dist_context.set_tensor_dist_attr_for_program(
                    target_tensor, tensor_attr)

1592
                if matched_op.type == "while":
1593
                    # var_reshard_mapping means the while op input need be changed to
1594 1595
                    if "var_reshard_mapping" not in Resharder.while_block_info[
                            op.attr("sub_block").id].keys():
1596 1597
                        Resharder.while_block_info[op.attr(
                            "sub_block").id]["var_reshard_mapping"] = {}
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                    if var_name not in Resharder.while_block_info[op.attr(
                            "sub_block").id]["var_reshard_mapping"].keys():
                        Resharder.while_block_info[op.attr("sub_block").id][
                            "var_reshard_mapping"][var_name] = []
1602
                    Resharder.while_block_info[op.attr("sub_block").id][
1603 1604
                        "var_reshard_mapping"][var_name].append(
                            [dist_attr, target_tensor.name])
1605 1606 1607

                # rename op input name according to new name
                for op in block.ops:
1608 1609
                    # just for while op
                    while_op_X_append = []
1610 1611 1612 1613 1614
                    for name in op.input_arg_names:
                        op_dist_attr = self.dist_context.get_op_dist_attr_for_program(
                            op)
                        if name == var_name and op_dist_attr is not None:
                            if op.desc.id() == matched_op.desc.id():
1615 1616 1617 1618 1619 1620 1621 1622 1623 1624 1625 1626 1627 1628 1629 1630 1631 1632 1633 1634 1635 1636 1637 1638 1639 1640 1641 1642 1643
                                if matched_op.type == "while":
                                    old_name = name
                                    new_name = target_tensor.name
                                    assert old_name != new_name
                                    op_input_dist_attr = op_dist_attr.get_input_dist_attr(
                                        old_name)
                                    op_dist_attr.set_input_dist_attr(
                                        new_name, op_input_dist_attr)
                                    op_dist_attr.set_input_dims_mapping(
                                        new_name, dims_mapping)
                                    if old_name in op_dist_attr._inputs_dist_attrs:
                                        op_dist_attr.del_input_dist_attr(
                                            old_name)
                                    while_op_X_append.append(new_name)
                                    continue
                                else:
                                    op.desc._rename_input(
                                        name, target_tensor.name)
                                    old_name = name
                                    new_name = target_tensor.name
                                    assert old_name != new_name
                                    op_input_dist_attr = op_dist_attr.get_input_dist_attr(
                                        old_name)
                                    op_dist_attr.set_input_dist_attr(
                                        new_name, op_input_dist_attr)
                                    op_dist_attr.set_input_dims_mapping(
                                        new_name, dims_mapping)
                                    op_dist_attr.del_input_dist_attr(old_name)
                                    continue
1644 1645 1646 1647

                            op_process_mesh = op_dist_attr.process_mesh
                            op_input_dims_mapping = op_dist_attr.get_input_dims_mapping(
                                var_name)
1648
                            # NOTE: For op whose process mesh is a union, its input will not be renamed by other op reshard result now which means that it will have more reshard operation.
1649 1650
                            if op_process_mesh == process_mesh and op_input_dims_mapping == dims_mapping:
                                op.desc._rename_input(name, target_tensor.name)
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                                old_name = name
                                new_name = target_tensor.name
                                assert old_name != new_name
                                op_input_dist_attr = op_dist_attr.get_input_dist_attr(
                                    old_name)
                                op_dist_attr.set_input_dist_attr(
                                    new_name, op_input_dist_attr)
1658
                                op_dist_attr.set_input_dims_mapping(
1659 1660
                                    new_name, dims_mapping)
                                op_dist_attr.del_input_dist_attr(old_name)
1661

1662 1663 1664 1665 1666 1667
                    # for while op, the input X should reset
                    if while_op_X_append:
                        proto = OpProtoHolder.instance().get_op_proto(op.type)
                        op.desc.set_input(proto.inputs[0].name,
                                          op.input("X") + while_op_X_append)

1668
    def _get_subblock_input_attrs(self, op, var_name):
1669
        # NOTE: Multi while loop is not supported
1670
        assert op.type in _g_subblock_ops
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        sub_block = self.auto_parallel_main_prog.blocks[op.attr("sub_block").id]
        ops = sub_block.ops
        input_attrs = []

        for op in ops:
            dist_op = self.dist_context.get_dist_op_for_program(op)
            if not dist_op:
                continue
            dist_attr = dist_op.dist_attr
            for name in op.input_arg_names:
                if name == var_name:
                    process_mesh = dist_attr.process_mesh
                    input_dims_mapping = dist_attr.get_input_dims_mapping(
                        var_name)
                    has_exist = False
                    for input_attr in input_attrs:
                        if process_mesh == input_attr[
                                0] and input_dims_mapping == input_attr[1]:
                            has_exist = True
                            break
                    if not has_exist:
                        input_attrs.append([process_mesh, input_dims_mapping])
        return input_attrs

    def _get_common_op_input_attrs(self, op, var_name):
        process_meshes = []
        dist_op = self.dist_context.get_dist_op_for_program(op)
        dist_attr = dist_op.dist_attr
        op_process_mesh = dist_attr.process_mesh
        for process_mesh in self.dist_context.process_meshes:
            if set(process_mesh.processes) & (set(
                    op_process_mesh.processes)) and len(
                        process_mesh.processes) < len(
                            op_process_mesh.processes):
                process_meshes.append(process_mesh)

        # it means that the process mesh is not a union when process meshes is none
        if not process_meshes:
            process_meshes.append(op_process_mesh)

        input_dims_mapping = dist_attr.get_input_dims_mapping(var_name)
        input_attrs = []
        for process_mesh in process_meshes:
            input_attrs.append([process_mesh, input_dims_mapping])

        return input_attrs

    def get_op_input_attrs(self, op, var_name):
        op_input_attrs = []
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1721 1722
        if op.type in _g_subblock_ops:
            op_input_attrs = self._get_subblock_input_attrs(op, var_name)
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        else:
            op_input_attrs = self._get_common_op_input_attrs(op, var_name)

        assert op_input_attrs

        return op_input_attrs

    def _remove_global_process_mesh(self):
        """Remove global process mesh from dist_context.process_meshes"""
        processes = set()
        process_mesh_count = len(self.dist_context.process_meshes)
        if process_mesh_count > 1:
            global_process_mesh_idx = None
            for process_mesh in self.dist_context.process_meshes:
                for process in process_mesh.processes:
                    processes.add(process)
            for idx, process_mesh in enumerate(
                    self.dist_context.process_meshes):
                if len(set(process_mesh.processes)) == len(processes):
                    global_process_mesh_idx = idx
                    break
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1745
            if global_process_mesh_idx is not None:
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                is_removed = False
                global_mesh = self.dist_context.process_meshes[idx]
                for i, mesh in enumerate(self.dist_context.process_meshes):
                    if i == idx:
                        continue
                    if set(mesh.processes) < set(global_mesh.processes):
                        is_removed = True

                if is_removed:
                    self.dist_context.process_meshes.pop(idx)
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    def _change_subblock_op_input_and_output(self, block_idx, block):
        if "var_reshard_mapping" in Resharder.while_block_info[block_idx]:
            var_reshard_mapping = Resharder.while_block_info[block_idx][
                "var_reshard_mapping"]
            for op in block.ops:
                for var_name in op.input_arg_names:
                    if var_name in var_reshard_mapping:
                        # in while sub block, the union process mesh is not split before reshard sub block
                        dist_op = self.dist_context.get_dist_op_for_program(op)
                        dist_attr = dist_op.dist_attr
                        target_name = None
                        for item in var_reshard_mapping[var_name]:
                            if dist_attr.process_mesh == item[0][
                                    0] and dist_attr.get_input_dims_mapping(
                                        var_name) == item[0][1]:
                                target_name = item[1]
                                break
                        if target_name is None:
                            continue
                        else:
                            op.desc._rename_input(var_name, target_name)
                            dist_op = self.dist_context.get_dist_op_for_program(
                                op)
                            op_dist_attr = dist_op.dist_attr
                            old_name = var_name
                            new_name = target_name
                            assert old_name != new_name
                            op_input_dist_attr = op_dist_attr.get_input_dist_attr(
                                old_name)
                            op_dist_attr.set_input_dist_attr(
                                new_name, op_input_dist_attr)
                            op_dist_attr.del_input_dist_attr(old_name)

                # the outputs also need to be renamed when the output name is the same with input name in inplace op
                for var_name in op.output_arg_names:
                    # if the tensor has been resharded multiply, it is not supported now.
                    if var_name in var_reshard_mapping:
                        if len(var_reshard_mapping[var_name]) > 1:
1795
                            raise ValueError(
1796
                                "The scene is not supported that the output is inplaced and the tensor has been resharded multiply when as input."
1797
                            )
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                        target_name = var_reshard_mapping[var_name][0][1]

                        op.desc._rename_output(var_name, target_name)
                        dist_op = self.dist_context.get_dist_op_for_program(op)
                        op_dist_attr = dist_op.dist_attr
                        old_name = var_name
                        new_name = target_name
                        assert old_name != new_name
                        op_output_dist_attr = op_dist_attr.get_output_dist_attr(
                            old_name)
                        op_dist_attr.set_output_dist_attr(
                            new_name, op_output_dist_attr)
                        op_dist_attr.del_output_dist_attr(old_name)

    def _reshard_input(self, block):
        idx = 0
        while idx < len(block.ops):
            pre_op_count = len(block.ops)
            op = block.ops[idx]

            if self.is_special_op(op):
                idx += 1
                continue

            dist_op = self.dist_context.get_dist_op_for_program(op)
            if dist_op is not None:
                op_input_dist_attrs = [
                ]  # [(op_process_mesh, op_input_dims_mapping), (op_process_mesh, op_input_dims_mapping)]
1826
                if op.type in _g_subblock_ops:
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                    if not self.is_condition_replicative(op):
                        raise ValueError(
                            "Please check the condition due to the dims mapping is not replicative."
                        )
                    if op.attr(
                            "sub_block").id not in Resharder.while_block_info:
                        Resharder.while_block_info[op.attr("sub_block").id] = {}
                    Resharder.while_block_info[op.attr(
                        "sub_block").id]["op_id"] = op.desc.id()

                if op.type == "while":
                    # condition var process mesh is the same with op and dims_mapping is replicative, so it do not need reshard
                    input_var_names = op.input("X")
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                elif op.type == "conditional_block":
                    input_var_names = op.input("Input")
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                else:
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                    input_var_names = op.input_arg_names
                # to avoid while op X order different
                input_var_names.sort()

                idx_offset = 0
                for var_name in input_var_names:
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                    # skip lod_tensor_blocking_queue_? name
                    if "lod_tensor_blocking_queue" in var_name:
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                        continue
                    var = get_var_with_recursion(var_name, block,
                                                 self.auto_parallel_main_prog)
                    dist_tensor = self.dist_context.get_dist_tensor_for_program(
                        var)

                    # judge whether union tensor dims_mapping all -1
                    is_union_process_mesh_tensor = False
                    if dist_tensor.dist_attr.process_mesh not in self.dist_context.process_meshes and self.dist_context.process_meshes:
                        is_union_process_mesh_tensor = True
                        assert dist_tensor.dist_attr.dims_mapping.count(
                            -1) == len(dist_tensor.dist_attr.dims_mapping)

                    op_input_attrs = self.get_op_input_attrs(op, var_name)
                    for input_attr in op_input_attrs:
                        input_process_mesh = None

                        # deal with union tensor
                        if is_union_process_mesh_tensor:
                            # if op process mesh is subset of union tensor process mesh, need no reshard
                            if set(input_attr[0].processes) <= set(
                                    dist_tensor.dist_attr.process_mesh.processes
                            ):
                                continue
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                        if dist_tensor is not None and self.need_reshard(
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                                dist_tensor, input_attr):
                            reshard_op_desc = self.find_op_desc_seq(
                                dist_tensor, input_attr)
                            self.parse_op_desc(block, reshard_op_desc, var_name,
                                               op, input_attr)
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                            cur_op_count = len(block.ops)
                            idx_offset = idx_offset + cur_op_count - pre_op_count
                            pre_op_count = cur_op_count
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                idx = idx + idx_offset + 1
            else:
                idx += 1

    def _hadnle_recv(self, block, idx, var, op, send_rank, recv_rank):
        if self.rank_id == recv_rank:
            # if recv bool data, recv then cast
            if var.dtype == paddle.bool:
                recv_cast_out = block.create_var(
                    name=unique_name.generate(var.name + "@recv"),
                    shape=var.shape,
                    lod_level=var.lod_level,
                    dtype=paddle.int64,
                    type=var.type)
                Inserter.insert_recv_op(block, idx + 1,
                                        recv_cast_out, send_rank, recv_rank,
                                        op.attr('op_role'))
                reset_lod_out = None
                if var.lod_level != 0:
                    set_lod = False
                    for tmp_block in self.auto_parallel_main_prog.blocks:
                        for tmp_var_name in tmp_block.vars:
                            tmp_var = tmp_block.vars[tmp_var_name]
                            if tmp_var.is_data and tmp_var.lod_level == var.lod_level:
                                reset_lod_out = block.create_var(
                                    name=unique_name.generate(var.name +
                                                              "@RESETLOD"),
                                    shape=recv_cast_out.shape,
                                    type=recv_cast_out.type,
                                    dtype=recv_cast_out.dtype,
                                    lod_level=recv_cast_out.lod_level)
                                idx += 1
                                block._insert_op(
                                    idx,
                                    type="lod_reset",
                                    inputs={
                                        'X': recv_cast_out,
                                        'Y': tmp_var
                                    },
                                    outputs={'Out': reset_lod_out},
                                    attrs={'op_role': op.attr("op_role")})
                                set_lod = True
                                break
                        if set_lod:
                            break
                    assert set_lod is True

                # cast int64 to bool
                block._insert_op(idx + 2,
                                 type='cast',
                                 inputs={
                                     'X': [recv_cast_out] if
                                     reset_lod_out is None else [reset_lod_out]
                                 },
                                 outputs={'Out': [var]},
                                 attrs={
                                     'in_dtype': recv_cast_out.dtype,
                                     'out_dtype': var.dtype,
                                     'op_role': op.attr('op_role')
                                 })
            else:
                if var.lod_level != 0:
                    recv_out = block.create_var(
                        name=unique_name.generate(var.name + "@recv"),
                        shape=var.shape,
                        lod_level=var.lod_level,
                        dtype=var.int64,
                        type=var.type)
                    Inserter.insert_recv_op(block, idx + 1, recv_out, send_rank,
                                            recv_rank, op.attr('op_role'))
                    set_lod = False
                    for tmp_block in self.auto_parallel_main_prog.blocks:
                        for tmp_var_name in tmp_block.vars:
                            tmp_var = tmp_block.vars[tmp_var_name]
                            if tmp_var.is_data and tmp_var.lod_level == var.lod_level:
                                idx += 1
                                block._insert_op(
                                    idx,
                                    type="lod_reset",
                                    inputs={
                                        'X': recv_out,
                                        'Y': tmp_var
                                    },
                                    outputs={'Out': var},
                                    attrs={'op_role': op.attr("op_role")})
                                set_lod = True
                                break
                        if set_lod:
                            break
                    assert set_lod is True
1975
                else:
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                    Inserter.insert_recv_op(block, idx + 1, var, send_rank,
                                            recv_rank, op.attr('op_role'))

    def _handle_send(self, block, idx, var, op, send_rank, recv_rank):
        if var.dtype == paddle.bool:
            cast_out = Inserter.insert_cast_op(block, idx + 1, var,
                                               op.attr('op_role'), paddle.int64)
            Inserter.insert_send_op(block, idx + 2, cast_out, send_rank,
                                    recv_rank, op.attr('op_role'))
        else:
            Inserter.insert_send_op(block, idx + 1, var, send_rank, recv_rank,
                                    op.attr('op_role'))

    def _reshard_output(self, block):
        # insert send and recv op if output process mesh is different from tensor process mesh
        idx = 0
        # skip reader and ops whose process mesh is union
        skip_ops = [
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            "create_py_reader", "create_double_buffer_reader", "read",
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            "write_to_array", "read_from_array"
        ]
        global _g_special_ops
        skip_ops += _g_special_ops
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        skip_ops += _g_subblock_ops
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        while idx < len(block.ops):
            pre_op_count = len(block.ops)
            op = block.ops[idx]
            dist_op = self.dist_context.get_dist_op_for_program(op)
            if dist_op is not None and op.type not in skip_ops:
                idx_offset = 0
                for var_name in op.output_arg_names:
                    var = get_var_with_recursion(var_name, block,
                                                 self.auto_parallel_main_prog)
                    dist_tensor = self.dist_context.get_dist_tensor_for_program(
                        var)
                    tensor_process_mesh = dist_tensor.dist_attr.process_mesh
                    output_attr = [
                        dist_op.dist_attr.process_mesh,
                        dist_op.dist_attr.get_output_dims_mapping(var_name)
                    ]
                    if dist_tensor is not None and self.need_reshard(
                            dist_tensor, output_attr, False):
                        tensor_processes = set(
                            tensor_process_mesh.processes) - (
                                set(tensor_process_mesh.processes)
                                & set(output_attr[0].processes))
                        if tensor_processes:
                            if len(tensor_processes) != len(
                                    output_attr[0].processes):
                                if dist_tensor.dist_attr.dims_mapping.count(
                                        -1) != len(
                                            dist_tensor.dist_attr.dims_mapping
                                        ) or output_attr[1].count(-1) != len(
                                            output_attr[1]):
                                    raise ValueError(
                                        "The dims_mapping must be -1")
                                else:
                                    for index, tensor_process in enumerate(
                                            tensor_processes):
                                        recv_rank = tensor_process
                                        actual_index = index
                                        if index >= len(
                                                output_attr[0].processes):
                                            actual_index = (
                                                index -
                                                len(output_attr[0].processes)
                                            ) % len(output_attr[0].processes)
                                        item = output_attr[0].processes[
                                            actual_index]
                                        if recv_rank == item:
                                            continue
                                        if self.rank_id == item:
                                            # if send bool data, cast then send
                                            self._handle_send(
                                                block, idx, var, op, item,
                                                recv_rank)
                                        if self.rank_id == recv_rank:
                                            # if recv bool data, recv then cast
                                            self._hadnle_recv(
                                                block, idx, var, op, item,
                                                recv_rank)
                            else:
                                for index, tensor_process in enumerate(
                                        tensor_processes):
                                    recv_rank = tensor_process
                                    item = output_attr[0].processes[index]
                                    if recv_rank == item:
                                        continue
                                    if self.rank_id == item:
                                        # if send bool data, cast then send
                                        self._handle_send(
                                            block, idx, var, op, item,
                                            recv_rank)
                                    if self.rank_id == recv_rank:
                                        # if recv bool data, recv then cast
                                        self._hadnle_recv(
                                            block, idx, var, op, item,
                                            recv_rank)

                            cur_op_count = len(block.ops)
                            idx_offset = idx_offset + cur_op_count - pre_op_count
                            pre_op_count = cur_op_count

                idx = idx + idx_offset + 1
            else:
                idx += 1

    def reshard(self):
        self._remove_global_process_mesh()
        for block_idx, block in enumerate(self.auto_parallel_main_prog.blocks):
            # change the var_name before resharding sub block
            if block_idx in Resharder.while_block_info:
                self._change_subblock_op_input_and_output(block_idx, block)

            # reshard input
            self._reshard_input(block)

            # reshard output
            # NOTE: Only support that insert send and recv op if output process mesh is different from tensor process mesh
            self._reshard_output(block)
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        # remove no need vars and ops in the main program
        Remover.remove_no_need_in_main(self.auto_parallel_main_prog,
                                       self.dist_context, self.rank_id,
                                       self.dist_params_grads)
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        # remove no need vars and ops in the startip program
        Remover.remove_no_need_in_startup(self.auto_parallel_main_prog,
                                          self.auto_parallel_startup_prog)
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caozhou 已提交
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        # reset some variable when remove operation ended
        Resharder.while_block_info = {}
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    def get_cost(self, op, tensor, cluster):
        # NOTE: The program should be the serial_program which is not been parted
        global _g_special_ops
        not_supported_op_type = _g_special_ops + ["while"]
        reshard_op_cost = None
        if op.type in not_supported_op_type:
            return reshard_op_cost
        else:
            tensor_name = tensor.name
            if tensor_name == "lod_tensor_blocking_queue_0":
                return reshard_op_cost
            else:
                dist_tensor = self.dist_context.get_dist_tensor_for_program(
                    tensor)
                # simplified processing: ignore union process mesh and output reshard
                dist_op = self.dist_context.get_dist_op_for_program(op)
                dims_mapping = dist_op.dist_attr.get_input_dims_mapping(
                    tensor.name)
                process_mesh = dist_op.dist_attr.process_mesh
                dist_attr = [process_mesh, dims_mapping]
                if dist_tensor is not None and self.need_reshard(
                        dist_tensor, dist_attr):
                    if tensor_name not in self._has_resharded:
                        self._has_resharded[tensor_name] = [dist_op]
                    else:
                        for item in self._has_resharded[tensor_name]:
                            item_dist_attr = item.dist_attr
                            item_dims_mapping = item_dist_attr.get_input_dims_mapping(
                                tensor_name)
                            item_process_mesh = item_dist_attr.process_mesh
                            if dims_mapping == item_dims_mapping and item_process_mesh == process_mesh:
                                return reshard_op_cost
                        self._has_resharded[tensor_name].append(dist_op)

                    reshard_op_desc = self.find_op_desc_seq(dist_tensor,
                                                            dist_attr,
                                                            serial=True)
                    dtype = dist_tensor.serial_tensor.dtype
                    reshard_op_cost = self.parse_op_desc_for_cost(
                        reshard_op_desc, dtype, cluster)

        return reshard_op_cost

    def _concat_partitions_for_cost(self, partition_tensor_list,
                                    partition_index, dtype, rank_id,
                                    local_rank_comp_cost, cluster):
        if not partition_tensor_list:
            partition_tensor_list.append(partition_index)
        else:
            i = 0
            has_concat = False
            while i < len(partition_tensor_list):
                concat_axis, first_order, new_partition = Resharder.compute_concat_info(
                    partition_tensor_list[i], partition_index)
                if concat_axis != -1:
                    has_concat = True
                    concat_desc = {}
                    concat_desc["op"] = "concat"
                    concat_desc["attrs"] = {"axis": concat_axis}
                    if first_order == 0:
                        concat_desc["inputs"] = {
                            "X": [(dtype, partition_tensor_list[i]),
                                  (dtype, partition_index)]
                        }
                    else:
                        concat_desc["inputs"] = {
                            "X": [(dtype, partition_index),
                                  (dtype, partition_tensor_list[i])]
                        }
                    partition_tensor_list.pop(i)
                    if rank_id not in local_rank_comp_cost:
                        local_rank_comp_cost[rank_id] = []
                    local_rank_comp_cost[rank_id].append(
                        ConcatOpCost(op_desc=concat_desc, cluster=cluster))
                    self._concat_partitions_for_cost(partition_tensor_list,
                                                     new_partition, dtype,
                                                     rank_id,
                                                     local_rank_comp_cost,
                                                     cluster)
                    break
                i += 1
            if not has_concat:
                partition_tensor_list.append(partition_index)

    def parse_op_desc_for_cost(self, reshard_op_desc, dtype, cluster):

        def _get_idx(comm_ranks, group_ranks):
            res, is_the_same = None, False
            idx = 0
            while idx < len(comm_ranks):
                if comm_ranks[idx] == set(group_ranks):
                    is_the_same = True

                for rank in group_ranks:
                    if rank in comm_ranks[idx]:
                        res = idx
                        comm_ranks[idx].add(rank)
                if res is None:
                    idx += 1
                else:
                    break
            return res, is_the_same

        comm_context = CommContext(cluster)
        # run communication op before computation op
        # TODO: Communication cost is not calculated when the var has been transfered by the same group in the past
        comm_costs = []
        comm_ranks = []
        local_rank_comp_cost = {}
        for key in reshard_op_desc:
            partition_tensor_list = []
            op_desc_list = reshard_op_desc[key]
            for op_desc in op_desc_list:
                if isinstance(op_desc, SendOpDesc):
                    group_ranks = [key, op_desc.dst]
                    shape = op_desc.shape
                    send_desc = build_comm_desc("send_v2", group_ranks, dtype,
                                                shape)
                    idx, is_the_same = _get_idx(comm_ranks, group_ranks)
                    if idx is None:
                        comm_costs.append([
                            (group_ranks,
                             SendOpCost(op_desc=send_desc,
                                        comm_context=comm_context))
                        ])
                        comm_ranks.append(set(group_ranks))
                    else:
                        if not is_the_same:
                            comm_costs[idx].append(
                                (group_ranks,
                                 SendOpCost(op_desc=send_desc,
                                            comm_context=comm_context)))
                elif isinstance(op_desc, AllGatherOpDesc):
                    # NOTE: fill_const and other unnecessary op is not calculated because those cost is very small
                    group_ranks = op_desc.group
                    shape = op_desc.shape
                    allgather_desc = build_comm_desc("c_allgather", group_ranks,
                                                     dtype, shape)
                    split_inputs_shape = []
                    for idx, dim in enumerate(shape):
                        if idx == 0:
                            split_inputs_shape.append(dim * len(group_ranks))
                        else:
                            split_inputs_shape.append(dim)
                    idx, is_the_same = _get_idx(comm_ranks, group_ranks)
                    if idx is None:
                        comm_costs.append([
                            (group_ranks,
                             AllgatherOpCost(op_desc=allgather_desc,
                                             comm_context=comm_context))
                        ])
                        comm_ranks.append(set(group_ranks))
                    else:
                        if not is_the_same:
                            comm_costs[idx].append(
                                (group_ranks,
                                 AllgatherOpCost(op_desc=allgather_desc,
                                                 comm_context=comm_context)))
                    # calc the split op cost
                    if key not in local_rank_comp_cost:
                        local_rank_comp_cost[key] = []
                    split_desc = {}
                    split_desc["op"] = "split"
                    split_desc["inputs"] = {
                        "inputs": [(dtype, split_inputs_shape)]
                    }
                    split_desc["attrs"] = {"num": len(group_ranks), "axis": 0}
                    local_rank_comp_cost[key].append(
                        SplitOpCost(op_desc=split_desc, cluster=cluster))
                elif isinstance(op_desc, ConcatOpDesc):
                    partition_index_list = op_desc._partition_index_list
                    for idx, partion_idex in enumerate(partition_index_list):
                        self._concat_partitions_for_cost(
                            partition_tensor_list, partion_idex, dtype, key,
                            local_rank_comp_cost, cluster)

                elif isinstance(op_desc, SliceOpDesc):
                    if key not in local_rank_comp_cost:
                        local_rank_comp_cost[key] = []
                    assert len(
                        partition_tensor_list) == 1 or not partition_tensor_list
                    to_slice_tensor_shape = []
                    if len(partition_tensor_list) == 1:
                        for item in partition_tensor_list[0]:
                            to_slice_tensor_shape.append(item[1] - item[0])
                    else:
                        to_slice_tensor_shape = op_desc.shape
                    slice_desc = {}
                    slice_desc["op"] = "slice"
                    infer_flags = list(1 for i in range(len(op_desc.axes)))
                    slice_desc["attrs"] = {
                        "axes": op_desc.axes,
                        "starts": op_desc.starts,
                        "ends": op_desc.ends,
                        "infer_flags": infer_flags
                    }
                    slice_desc["inputs"] = {
                        "Input": [(dtype, to_slice_tensor_shape)]
                    }
                    local_rank_comp_cost[key].append(
                        SliceOpCost(op_desc=slice_desc, cluster=cluster))

        res = (comm_costs, local_rank_comp_cost)

        return res