I have a very large pandas data frame, over which I want to map many functions. Because the frame is large, I wrote some code to parallelize this:

import pandas as pd
import numpy as np
from multiprocessing import cpu_count(), Pool

my_frame = pd.DataFrame(...) # A large data frame with the column "data"

def parallel_map(series: pd.Series, func):
    cores = cpu_count()
    partitions = cores
    data_split = np.array_split(series, partitions)
    print(f"Parallelizing with {cores} cores...")
    with Pool(cores) as pool:
        data = pd.concat(pool.map(func, data_split))
    return data

What I want to call this with is pd.Series.map, i.e. I want to compute things for each row; something like this:

def transform_data(entry):
    # Do expensive stuff
    return entry

Non-parallel, I could now do


However, for the parallel version, I need to define an additional function in the global namespace to invert the caller, because Pool.map applies f(x), but I want to call x.f(). The function needs to be pickle-able to be able to be run by the Pool:

def inverted_transform_data(column: pd.Series):
    return column.map(transform_data)

Now I can call the parallel version like this:

parallel_map(data=my_frame["data"], func=inverted_transform_data)

The problem is that I want to do this for many functions that need to be handles sequentially, i.e. transform_data1, transform_data2, .... This requires me to create this global wrapper function for each of them.

Is there a better alternative that is still pickle-able?


Dask! https://dask.org/

Dask is a project specifically geared toward parallel pandas. I strongly encourage you to consider it for your use case. If you just want performance gains while sticking with pandas, check out the docs here:


And this article I found particularly helpful:



With dask you would do:

import dask.dataframe as dd

df = # import method such as dd.read_csv("df.csv")
df.apply(func, ...) # or dd.data_col.apply(func, ...)

I ended up a "low budget" solution, because I did not want to introduce dask as a dependency. It just creates a callable wrapper class:

class InvertedCallerMap(object):

    def __init__(self, func):
        Required so the parallel map can call x.f() instead of f(x) without running into pickling issues
        :param func: Function to invert from x.f() to f(x)
        self.func = func

    def __call__(self, column: pd.Series):
        return column.map(self.func)

def parallel_map(series, func, invert=True):
    cores = cpu_count()
    partitions = cores
    data_split = np.array_split(series, partitions)
    if invert:
        func = InvertedCallerMap(func=func)
    with Pool(cores) as pool:
        data = pd.concat(pool.map(func, data_split))
    return data

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