18

I have a lot of pickle files. Currently I read them in a loop but it takes a lot of time. I would like to speed it up but don't have any idea how to do that.

Multiprocessing wouldn't work because in order to transfer data from a child subprocess to the main process data need to be serialized (pickled) and deserialized.

Using threading wouldn't help either because of GIL.

I think that the solution would be some library written in C that takes a list of files to read and then runs multiple threads (without GIL). Is there something like this around?

UPDATE Answering your questions:

  • Files are partial products of data processing for the purpose of ML
  • There are pandas.Series objects but the dtype is not known upfront
  • I want to have many files because we want to pick any subset easily
  • I want to have many smaller files instead of one big file because deserialization of one big file takes more memory (at some point in time we have serialized string and deserialized objects)
  • The size of the files can vary a lot
  • I use python 3.7 so I believe it's cPickle in fact
  • Using pickle is very flexible because I don't have to worry about underlying types - I can save anything
16
  • Does this help? stackoverflow.com/a/50479955/3288092
    – BernardL
    Feb 24, 2021 at 10:01
  • @BernardL Not really. I read data from one disc and don't see any gain using threads. I think that decompression and deserialization is run under the GIL and IO has lower impact on the total time. Feb 24, 2021 at 11:23
  • I think this process is more I/O bound then processing bound.
    – SaGaR
    Feb 27, 2021 at 9:02
  • If the bottleneck involves primarily creating Python objects from the pickle data, I can't think of anything you can do without rearchitecting your code in some way or switch to a version of Python that does not impose the limitations of the GIL.
    – CryptoFool
    Feb 28, 2021 at 18:30
  • 1
    What's in the pickle files? I mean what kind of objects? Have you tried cpickle? Feb 28, 2021 at 18:33

5 Answers 5

5
+200

I think that the solution would be some library written in C that takes a list of files to read and then runs multiple threads (without GIL). Is there something like this around?

In short: no. pickle is apparently good enough for enough people that there are no major alternate implementations fully compatible with the pickle protocol. As of sometime in python 3, cPickle was merged with pickle, and neither release the GIL anyway which is why threading won't help you (search for Py_BEGIN_ALLOW_THREADS in _pickle.c and you will find nothing).

If your data can be re-structured into a simpler data format like csv, or a binary format like numpy's npy, there will be less cpu overhead when reading your data. Pickle is built for flexibility first rather than speed or compactness first. One possible exception to the rule of more complex less speed is the HDF5 format using h5py, which can be fairly complex, and I have used to max out the bandwidth of a sata ssd.

Finally you mention you have many many pickle files, and that itself is probably causing no small amount of overhead. Each time you open a new file, there's some overhead involved from the operating system. Conveniently you can combine pickle files by simply appending them together. Then you can call Unpickler.load() until you reach the end of the file. Here's a quick example of combining two pickle files together using shutil

import pickle, shutil, os

#some dummy data
d1 = {'a': 1, 'b': 2, 1: 'a', 2: 'b'}
d2 = {'c': 3, 'd': 4, 3: 'c', 4: 'd'}

#create two pickles
with open('test1.pickle', 'wb') as f:
    pickle.Pickler(f).dump(d1)
with open('test2.pickle', 'wb') as f:
    pickle.Pickler(f).dump(d2)
    
#combine list of pickle files
with open('test3.pickle', 'wb') as dst:
    for pickle_file in ['test1.pickle', 'test2.pickle']:
        with open(pickle_file, 'rb') as src:
            shutil.copyfileobj(src, dst)
            
#unpack the data
with open('test3.pickle', 'rb') as f:
    p = pickle.Unpickler(f)
    while True:
        try:
            print(p.load())
        except EOFError:
            break
        
#cleanup
os.remove('test1.pickle')
os.remove('test2.pickle')
os.remove('test3.pickle')
4
  • That's not what the metrics for competing projects show.
    – hrokr
    Mar 3, 2021 at 2:54
  • @hrokr if there are any major projects that are fully compatible with the pickle protocol that are faster than pickle I am not aware of them. quickle and pyrobuf would fall under the second paragraph encouraging the transition to another format that has a faster, more efficient deserialization.
    – Aaron
    Mar 3, 2021 at 14:29
  • If you look at edits to the question, you'll note the requirement was added five days after the original question was asked. And, while I understand the OP might want something that can handle any data type most things are optimized for speed in one area or another -- which is what and why several people have asked.
    – hrokr
    Mar 3, 2021 at 20:46
  • @Aaron Thanks for pointing out the lack of Py_BEGIN_ALLOW_THREADS that indicates that trying to create C module using code from _pickle.c won't help. Mar 7, 2021 at 7:11
5

I agree with what has been noted in the comments, namely that due to the constraint of python itself (chiefly, the GIL lock, as you noted) and there may simply be no faster loading the information beyond what you are doing now. Or, if there is a way, it may be both highly technical and, in the end, only gives you a modest increase in speed.

That said, depending on the datatypes you have, it may be faster to use quickle or pyrobuf.

3
  • 1
    ...or cpickle, as @MarkSetchell suggests. If I'm reading correctly, cpickle would be compatible with the existing data. - It seems that pyrobuf requires Cython, which would eliminate the GIL and therefore completely change the nature of the problem.
    – CryptoFool
    Feb 28, 2021 at 18:50
  • @CryptoFool - that's worth adding but I haven't used it but for a different reason: pickle and (and apparently cpickle) automatically run the code. That is something that makes me cringe every time. If it's just my stuff, sure. But if I'm sending or receiving something, that's a risk that I'm not keen on taking.
    – hrokr
    Feb 28, 2021 at 18:59
  • 1
    @MarkSetchell - I was having a problem finding a repo for cipickle. Apparently, pickle now uses cpickel internally (stackoverflow.com/questions/37132899/…) and has been doing so for some time now. So that doesn't appear to be of any benefit. Does that match with your experiece?
    – hrokr
    Feb 28, 2021 at 19:57
2

I think you should try and use mmap(memory mapped files) that is similar to open() but way faster.

Note: If your each file is big in size then use mmap otherwise If the files are small in size use regular methods.

I have written a sample that you can try.

import mmap
from time import perf_counter as pf
def load_files(filelist):
    start = pf() # for rough time calculations
    for filename in filelist:
        with open(filename, mode="r", encoding="utf8") as file_obj:
            with mmap.mmap(file_obj.fileno(), length=0, access=mmap.ACCESS_READ) as mmap_file_obj:
                data = pickle.load(mmap_file_obj)
                print(data)
    print(f'Operation took {pf()-start} sec(s)')

Here mmap.ACCESS_READ is the mode to open the file in binary. The file_obj returned by open is just used to get the file descriptor which is used to open the stream to the file via mmap as a memory mapped file. As you can see below in the documentation of python open returns the file descriptor or fd for short. So we don't have to do anything with the file_obj operation wise. We just need its fileno() method to get its file descriptor. Also we are not closing the file_obj before the mmap_file_obj. Please take a proper look. We are closing the the mmap block first. As you said in your comment.

open (file, flags[, mode])
Open the file file and set various flags according to flags and possibly its mode according to mode. 
The default mode is 0777 (octal), and the current umask value is first masked out. 
Return the file descriptor for the newly opened file.

Give it a try and see how much impact does it do on your operation You can read more about mmap here. And about file descriptor here

9
  • Don't you (1) need to open the pickled file in binary mode? and (2) you are clobbering file_obj returned by the call to open with your call to mmap.mmap and that does not seem correct.
    – Booboo
    Feb 28, 2021 at 15:39
  • 1
    mmap.ACCESS_READ is the mode to open the file in binary. The file_obj returned by open is just used to get the file descriptor which is used to open the stream to the file via mmap@Booboo
    – SaGaR
    Feb 28, 2021 at 17:48
  • What makes you think memory mapping the file makes reading it faster? This is true if you are going to make many small reads on the file, or are going to perform random access on the file. If you are instead going to read the file in bulk, how is it faster to do so through a memory map than directly? There is no reason that it should be any faster.
    – CryptoFool
    Feb 28, 2021 at 18:15
  • @SaGaR These were questons. As far as (1) goes, I have tried it with binary mode and that works. As far as (2) goes, I have not tried it but the link you point to certainly uses a different variable for the call to mmap.mmap and the context manager for open will attempt to call close on file_obj, which may not fail because it might be valid for the memory mapped file, but you might still be leaving the original file handle open. I don't know -- it just looks questionable. If I knew for sure I would have downvoted you instead of asking.
    – Booboo
    Feb 28, 2021 at 18:34
  • 2
    @SaGaR - My understanding of how things work seems to be just the opposite of what you're saying. Why does reading a whole file into a memory-map, happen any more quickly than reading it into Python's address space prior to it being decoded? There's no reason that I know of that memory mapping large or small files should offer any advantage. The file I/O is the same in that case. The advantage of memory-mapped files comes from being able to read the file all at once when the code isn't going to access the files contents that way, but rather in small chunks, or by seeking around in the file.
    – CryptoFool
    Mar 1, 2021 at 8:54
1

You can try multiprocessing:

import os,pickle
pickle_list=os.listdir("pickles")

output_dict=dict.fromkeys(pickle_list, '')

def pickle_process_func(picklename):
    with open("pickles/"+picklename, 'rb') as file:
        dapickle=pickle.load(file)

    #if you need previus files output wait for it
    while(!output_dict[pickle_list[pickle_list.index(picklename)-1]]):
        continue

    #thandosomesh
    print("loaded")
    output_dict[picklename]=custom_func_i_dunno(dapickle)
    

from multiprocessing import Pool

with Pool(processes=10) as pool:
     pool.map(pickle_process_func, pickle_list)
5
  • 1
    This was addressed in the question.. multiprocessing.Pool.map uses a single Queue (which serializes and deserializes data using pickle) to receive results from the child processes, so the speed would bottleneck there instead. You are still limited by the speed of a single core unpickling a stream of data.
    – Aaron
    Mar 3, 2021 at 21:01
  • How about using shared memory for passing the results ? Mar 5, 2021 at 15:44
  • 2
    @CyrillePontvieux multiprocessing.shared_memory only exposes a binary bytes-like array of memory, and sharing arbitrary python objects is unsupported. It's great for things like numpy arrays or pandas series objects where the underlying data is just a binary array, but structured data is much more difficult.
    – Aaron
    Mar 5, 2021 at 22:22
  • @Aaron how about converting pickles to sql? Mar 6, 2021 at 16:07
  • @RifatAlptekinÇetin would have to benchmark for speed... seems like OP Really wants pickle however...
    – Aaron
    Mar 6, 2021 at 17:54
0

Consider using HDF5 via h5py instead of pickle. The performance is generally much better than pickle with numerical data in Pandas and numpy data structures and it supports most common data types and compression.

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