worker.py 13.2 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.

import os
import six
import sys
import paddle
import numpy as np
import traceback
from collections import namedtuple
from .. import core
from .fetcher import _IterableDatasetFetcher, _MapDatasetFetcher
from ..multiprocess_utils import _cleanup_mmap, CleanupFuncRegistrar, MP_STATUS_CHECK_INTERVAL
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from ..framework import _non_static_mode, _in_eager_without_dygraph_check
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from .flat import _flatten_batch

# NOTE: queue has a different name in python2 and python3
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import queue
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__all__ = ['get_worker_info']


class _IterableDatasetStopIteration(object):
    def __init__(self, worker_id):
        self.worker_id = worker_id


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class _ResumeIteration(object):
    pass


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class _DatasetKind(object):
    MAP = 0
    ITER = 1

    @staticmethod
    def create_fetcher(kind, dataset, auto_collate_batch, collate_fn,
                       drop_last):
        if kind == _DatasetKind.MAP:
            return _MapDatasetFetcher(dataset, auto_collate_batch, collate_fn,
                                      drop_last)
        elif kind == _DatasetKind.ITER:
            return _IterableDatasetFetcher(dataset, auto_collate_batch,
                                           collate_fn, drop_last)
        else:
            raise NotImplementedError("unknown Dataset kind {}".format(kind))


class ParentWatchDog(object):
    def __init__(self):
        self._parent_pid = os.getppid()
        self._parent_alive = True

    def is_alive(self):
        if self._parent_alive:
            self._parent_alive = os.getppid() == self._parent_pid
        return self._parent_alive


# worker information for each workers, used for splitting data copy
# for IteratorDataset in worker processes.
_worker_info = None


def get_worker_info():
    """
    Get DataLoader worker process information function, this function is
    used to split data copy in worker process for IterableDataset
    (see :code:`paddle.io.IterableDataset`), worker information contains
    following fields:

    :attr:`num_workers`: total worker process number, see `paddle.io.DataLoader`

    :attr:`id`: the worker processs id, count from 0 to :attr:`num_workers - 1`

    :attr:`dataset`: the dataset object in this worker process

    Returns:
        WorkerInfo: an instance of WorkerInfo which contains fields above.

    .. note::
        For more usage and examples, please see :code:`paddle.io.IterableDataset`

    Example:

        .. code-block:: python

            import math
            import paddle
            import numpy as np
            from paddle.io import IterableDataset, DataLoader, get_worker_info

            class SplitedIterableDataset(IterableDataset):
                def __init__(self, start, end):
                    self.start = start
                    self.end = end

                def __iter__(self):
                    worker_info = get_worker_info()
                    if worker_info is None:
                        iter_start = self.start
                        iter_end = self.end
                    else:
                        per_worker = int(
                            math.ceil((self.end - self.start) / float(
                                worker_info.num_workers)))
                        worker_id = worker_info.id
                        iter_start = self.start + worker_id * per_worker
                        iter_end = min(iter_start + per_worker, self.end)

                    for i in range(iter_start, iter_end):
                        yield np.array([i])

            place = paddle.CPUPlace()
            dataset = SplitedIterableDataset(start=2, end=9)
            dataloader = DataLoader(
                dataset,
                places=place,
                num_workers=2,
                batch_size=1,
                drop_last=True)

            for data in dataloader:
                print(data)
            # outputs: [2, 5, 3, 6, 4, 7]

    """
    return _worker_info


class WorkerInfo(object):
    __initialized = False

    def __init__(self, **kwargs):
        for k, v in kwargs.items():
            setattr(self, k, v)
        self.__initialized = True

    def __setattr__(self, key, val):
        if self.__initialized:
            raise RuntimeError("Cannot assign attributes to {} objects".format(
                self.__class__.__name__))
        return super(WorkerInfo, self).__setattr__(key, val)


class _WorkerException(object):
    def __init__(self, worker_id, exc_info=None):
        self.worker_id = worker_id
        exc_info = exc_info or sys.exc_info()
        self.exc_type = exc_info[0]
        self.exc_msg = "".join(traceback.format_exception(*exc_info))

    def reraise(self):
        msg = "DataLoader worker({}) caught {} with message:\n{}".format(
            self.worker_id, self.exc_type.__name__, self.exc_msg)
        if getattr(self.exc_type, "message", None):
            raise self.exc_type(message=msg)
        raise self.exc_type(msg)


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# The function `_generate_states` is adapted from `numpy.random.SeedSequence`
# from https://github.com/numpy/numpy/blob/main/numpy/random/bit_generator.pyx
# Here is the copyright:

# SeedSequence is derived from Melissa E. O'Neill's C++11 `std::seed_seq`
# implementation, as it has a lot of nice properties that we want.
# https://gist.github.com/imneme/540829265469e673d045
# http://www.pcg-random.org/posts/developing-a-seed_seq-alternative.html

# The MIT License (MIT)

# Copyright (c) 2015 Melissa E. O'Neill
# Copyright (c) 2019 NumPy Developers
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.

INIT_A = 0x43b0d7e5
MULT_A = 0x931e8875
INIT_B = 0x8b51f9dd
MULT_B = 0x58f38ded
MIX_MULT_L = 0xca01f9dd
MIX_MULT_R = 0x4973f715
XSHIFT = np.dtype(np.uint32).itemsize * 8 // 2
MASK32 = 0xFFFFFFFF


def _generate_states(base_seed=0, worker_id=0):
    # init hash constant
    hash_const_A = INIT_A
    hash_const_B = INIT_B

    def hash(value):
        nonlocal hash_const_A
        value = (value ^ hash_const_A) & MASK32
        hash_const_A = (hash_const_A * MULT_A) & MASK32
        value = (value * hash_const_A) & MASK32
        value = (value ^ (value >> XSHIFT)) & MASK32
        return value

    def mix(x, y):
        result_x = (MIX_MULT_L * x) & MASK32
        result_y = (MIX_MULT_R * y) & MASK32
        result = (result_x - result_y) & MASK32
        result = (result ^ (result >> XSHIFT)) & MASK32
        return result

    # init entropys with based_seed and worker_id and calculate pool
    entropys = [worker_id, base_seed & MASK32, base_seed >> 32, 0]
    pool = [hash(entropy) for entropy in entropys]

    # mix all bits together
    for i in range(len(pool)):
        for j in range(len(pool)):
            if i != j:
                pool[j] = mix(pool[j], hash(pool[i]))

    states = []
    for p in pool:
        state = (p ^ hash_const_B) & MASK32
        hash_const_B = (hash_const_B * MULT_B) & MASK32
        state = (state * hash_const_B) & MASK32
        state = (state ^ (state >> XSHIFT)) & MASK32
        states.append(state)

    return states


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def _worker_loop(dataset, dataset_kind, indices_queue, out_queue, done_event,
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                 auto_collate_batch, collate_fn, drop_last, init_fn, worker_id,
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                 num_workers, use_shared_memory):
    try:
        # NOTE: [ mmap files clear ] When the child process exits unexpectedly,
        # some shared memory objects may have been applied for but have not yet
        # been put into the inter-process Queue. This part of the object needs
        # to be cleaned up when the process ends.
        CleanupFuncRegistrar.register(_cleanup_mmap)

        # set signal handler
        core._set_process_signal_handler()

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        # set different numpy seed for each worker
        try:
            import numpy as np
            import time
        except ImportError:
            pass
        else:
            np.random.seed(_generate_states(int(time.time()), worker_id))

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        global _worker_info
        _worker_info = WorkerInfo(
            id=worker_id, num_workers=num_workers, dataset=dataset)

        init_exception = None
        try:
            if init_fn is not None:
                init_fn(worker_id)
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            fetcher = _DatasetKind.create_fetcher(dataset_kind, dataset,
                                                  auto_collate_batch,
                                                  collate_fn, drop_last)
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        except:
            init_exception = _WorkerException(worker_id)

        iterator_drained = False
        parent_watch_dog = ParentWatchDog()

        while parent_watch_dog.is_alive():
            try:
                data = indices_queue.get(MP_STATUS_CHECK_INTERVAL)
            except queue.Empty:
                continue

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            if isinstance(data, _ResumeIteration):
                out_queue.put((data, None, None))
                iterator_drained = False
                fetcher = _DatasetKind.create_fetcher(
                    dataset_kind, dataset, auto_collate_batch, collate_fn, True)
                continue

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            # None as poison piil, so worker event should be set
            if data is None:
                assert done_event.is_set() or iterator_drained, \
                        "get None when worker done_event set"
                break
            # If worker done event is set but get still get data in
            # indices_queue, remaining data should be get and skipped.
            if done_event.is_set() or iterator_drained:
                continue

            idx, indices = data
            try:
                if init_exception is not None:
                    batch = init_exception
                    init_exception = None
                else:
                    # NOTE: GPU tensor operation is not supported in sub-process
                    #       but default device is GPU in paddle-gpu version, which
                    #       may copy CPU tensor to GPU even if users want to use
                    #       CPU tensor operation, so we add CPUPlace guard here
                    #       to make sure tensor will be operated only on CPU
                    with paddle.fluid.dygraph.guard(place=paddle.CPUPlace()):
                        batch = fetcher.fetch(indices)
            except Exception as e:
                if isinstance(
                        e, StopIteration) and dataset_kind == _DatasetKind.ITER:
                    out_queue.put(_IterableDatasetStopIteration(worker_id))
                    iterator_drained = True
                else:
                    out_queue.put((idx, _WorkerException(worker_id), None))
            else:
                if isinstance(batch, _WorkerException):
                    out_queue.put((idx, batch, None))
                batch, structure = _flatten_batch(batch)
                if use_shared_memory:
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                    # NOTE: In eager mode, Tensor._share_memory has no
                    # effect, fall back to _array_to_share_memory_tensor
                    def tensor_share_memory(tensor):
                        if _in_eager_without_dygraph_check():
                            return core._array_to_share_memory_tensor(tensor)
                        return tensor._share_memory()
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                    tensor_list = [
                        core._array_to_share_memory_tensor(b)
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                        if isinstance(b, np.ndarray) \
                        else tensor_share_memory(b) for b in batch
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                    ]
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                    out_queue.put((idx, tensor_list, structure))
                    core._remove_tensor_list_mmap_fds(tensor_list)
                else:
                    out_queue.put((idx, batch, structure))
    except KeyboardInterrupt:
        # NOTE: Main process will raise KeyboardInterrupt anyways, ignore it in child process
        pass
    except:
        six.reraise(*sys.exc_info())
    finally:
        if use_shared_memory:
            _cleanup_mmap()