# Copyright (c) 2019 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. """Optimized Multiprocessing Reader for PaddlePaddle """ import logging log = logging.getLogger(__name__) import multiprocessing import copy try: import ujson as json except: log.info("ujson not install, fail back to use json instead") import json import numpy as np import time import paddle.fluid as fluid from multiprocessing import Queue import threading def serialize_data(data): """serialize_data""" if data is None: return None return numpy_serialize_data(data) #, ensure_ascii=False) def numpy_serialize_data(data): """serialize_data""" ret_data = {} for key in data: if isinstance(data[key], np.ndarray): ret_data[key] = (data[key].tobytes(), list(data[key].shape), "%s" % data[key].dtype) else: ret_data[key] = data[key] return ret_data def numpy_deserialize_data(data): """deserialize_data""" if data is None: return None for key in data: if isinstance(data[key], tuple): value = np.frombuffer( data[key][0], dtype=data[key][2]).reshape(data[key][1]) data[key] = value return data def deserialize_data(data): """deserialize_data""" return numpy_deserialize_data(data) def multiprocess_reader(readers, use_pipe=True, queue_size=1000, pipe_size=10): """ multiprocess_reader use python multi process to read data from readers and then use multiprocess.Queue or multiprocess.Pipe to merge all data. The process number is equal to the number of input readers, each process call one reader. Multiprocess.Queue require the rw access right to /dev/shm, some platform does not support. you need to create multiple readers first, these readers should be independent to each other so that each process can work independently. An example: .. code-block:: python reader0 = reader(["file01", "file02"]) reader1 = reader(["file11", "file12"]) reader1 = reader(["file21", "file22"]) reader = multiprocess_reader([reader0, reader1, reader2], queue_size=100, use_pipe=False) """ assert type(readers) is list and len(readers) > 0 def _read_into_queue(reader, queue): """read_into_queue""" for sample in reader(): if sample is None: raise ValueError("sample has None") queue.put(serialize_data(sample)) queue.put(serialize_data(None)) def queue_reader(): """queue_reader""" queue = multiprocessing.Queue(queue_size) for reader in readers: p = multiprocessing.Process( target=_read_into_queue, args=(reader, queue)) p.start() reader_num = len(readers) finish_num = 0 while finish_num < reader_num: sample = deserialize_data(queue.get()) if sample is None: finish_num += 1 else: yield sample def _read_into_pipe(reader, conn, max_pipe_size): """read_into_pipe""" for sample in reader(): if sample is None: raise ValueError("sample has None!") conn.send(serialize_data(sample)) conn.send(serialize_data(None)) conn.close() def pipe_reader(): """pipe_reader""" conns = [] for reader in readers: parent_conn, child_conn = multiprocessing.Pipe() conns.append(parent_conn) p = multiprocessing.Process( target=_read_into_pipe, args=(reader, child_conn, pipe_size)) p.start() reader_num = len(readers) conn_to_remove = [] finish_flag = np.zeros(len(conns), dtype="int32") start = time.time() def queue_worker(sub_conn, que): while True: buff = sub_conn.recv() sample = deserialize_data(buff) if sample is None: que.put(None) sub_conn.close() break que.put(sample) thread_pool = [] output_queue = Queue(maxsize=reader_num) for i in range(reader_num): t = threading.Thread( target=queue_worker, args=(conns[i], output_queue)) t.daemon = True t.start() thread_pool.append(t) finish_num = 0 while finish_num < reader_num: sample = output_queue.get() if sample is None: finish_num += 1 else: yield sample for thread in thread_pool: thread.join() if use_pipe: return pipe_reader else: return queue_reader