I need to filter rows in a pandas dataframe so that a specific string column contains at least one of a list of provided substrings. The substrings may have unusual / regex characters. The comparison should not involve regex and is case insensitive.

For example:

lst = ['kdSj;af-!?', 'aBC+dsfa?\-', 'sdKaJg|dksaf-*']

I currently apply the mask like this:

mask = np.logical_or.reduce([df[col].str.contains(i, regex=False, case=False) for i in lst])
df = df[mask]

My dataframe is large (~1mio rows) and lst has length 100. Is there a more efficient way? For example, if the first item in lst is found, we should not have to test any subsequent strings for that row.


If you're sticking to using pure-pandas, for both performance and practicality I think you should use regex for this task. However, you will need to properly escape any special characters in the substrings first to ensure that they are matched literally (and not used as regex meta characters).

This is easy to do using re.escape:

>>> import re
>>> esc_lst = [re.escape(s) for s in lst]

These escaped substrings can then be joined using a regex pipe |. Each of the substrings can be checked against a string until one matches (or they have all been tested).

>>> pattern = '|'.join(esc_lst)

The masking stage then becomes a single low-level loop through the rows:

df[col].str.contains(pattern, case=False)

Here's a simple setup to get a sense of performance:

from random import randint, seed


# 100 substrings of 5 characters
lst = [''.join([chr(randint(0, 256)) for _ in range(5)]) for _ in range(100)]

# 50000 strings of 20 characters
strings = [''.join([chr(randint(0, 256)) for _ in range(20)]) for _ in range(50000)]

col = pd.Series(strings)
esc_lst = [re.escape(s) for s in lst]
pattern = '|'.join(esc_lst)

The proposed method takes about 1 second (so maybe up to 20 seconds for 1 million rows):

%timeit col.str.contains(pattern, case=False)
1 loop, best of 3: 981 ms per loop

The method in the question took approximately 5 seconds using the same input data.

It's worth noting that these times are 'worst case' in the sense that there were no matches (so all substrings were checked). If there are matches than the timing will improve.


You could try using the Aho-Corasick algorithm. In the average case, it is O(n+m+p) where n is length of the search strings and m is the length of the searched text and p is the number of output matches.

The Aho-Corasick algorithm is often used to find multiple patterns (needles) in an input text (the haystack).

pyahocorasick is a Python wrapper around a C implementation of the algorithm.

Let's compare how fast it is versus some alternatives. Below is a benchmark showing using_aho_corasick to be over 30x faster than the original method (shown in the question) on a 50K-row DataFrame test case:

|                    |     speed factor | ms per loop |
|                    | compared to orig |             |
| using_aho_corasick |            30.7x |         140 |
| using_regex        |             2.7x |        1580 |
| orig               |             1.0x |        4300 |

In [89]: %timeit using_ahocorasick(col, lst)
10 loops, best of 3: 140 ms per loop

In [88]: %timeit using_regex(col, lst)
1 loop, best of 3: 1.58 s per loop

In [91]: %timeit orig(col, lst)
1 loop, best of 3: 4.3 s per loop

Here the setup used for the benchmark. It also verifies that the output matches the result returned by orig:

import numpy as np
import random
import pandas as pd
import ahocorasick
import re


def orig(col, lst):
    mask = np.logical_or.reduce([col.str.contains(i, regex=False, case=False) 
                                 for i in lst])
    return mask

def using_regex(col, lst):
    """https://stackoverflow.com/a/48590850/190597 (Alex Riley)"""
    esc_lst = [re.escape(s) for s in lst]
    pattern = '|'.join(esc_lst)
    mask = col.str.contains(pattern, case=False)
    return mask

def using_ahocorasick(col, lst):
    A = ahocorasick.Automaton(ahocorasick.STORE_INTS)
    for word in lst:
    col = col.str.lower()
    mask = col.apply(lambda x: bool(list(A.iter(x))))
    return mask

N = 50000
# 100 substrings of 5 characters
lst = [''.join([chr(random.randint(0, 256)) for _ in range(5)]) for _ in range(100)]

# N strings of 20 characters
strings = [''.join([chr(random.randint(0, 256)) for _ in range(20)]) for _ in range(N)]
# make about 10% of the strings match a string from lst; this helps check that our method works
strings = [_ if random.randint(0, 99) < 10 else _+random.choice(lst) for _ in strings]

col = pd.Series(strings)

expected = orig(col, lst)
for name, result in [('using_regex', using_regex(col, lst)),
                     ('using_ahocorasick', using_ahocorasick(col, lst))]:
    status = 'pass' if np.allclose(expected, result) else 'fail'
    print('{}: {}'.format(name, status))
  • very interesting. would it be possible to use this package in a pandas dataframe or that would reduce the performance (because of the loop I guess)? – ℕʘʘḆḽḘ May 4 '18 at 15:25
  • 2
    The benchmark shown above would still apply. Above, A.iter is called inside a call to col.apply where col is a pandas Series. That's not very different from (or maybe even exactly the same as) what you would be doing with a pandas DataFrame. Using apply has about the same performance as a simple Python loop, but you'd still be getting the benefit of using the Aho-Corasick algorithm. – unutbu May 4 '18 at 15:51

Using a simpler example & ignore case (upper or lowercase)

Filtering and getting a binary vector:

I want to find all elements of a pd.Series, v, that contain "at" or "Og". And get 1 if the element contains the pattern or 0 if it doesn't.

I'll use the re:
import re

My vector:

v=pd.Series(['cAt','dog','the rat','mouse','froG'])


0        cAt
1        dog
2    the rat
3      mouse
4       froG

I want to find all elements of v that contain "at" or "Og". This is, I can define my pattern as:


Since I want a vector with 1s if the item contains the pattern or 0 if don't.

I create an unitary vector with the same length as v:


I obtain a boolenean s that is Trueif one element of vcontains the patternor Falseif it doesn't contain it.

s=v.str.contains(pattern, flags=re.IGNORECASE, regex=True)

To obtain the binary vector I multiply the v_binary*s:



0    1
1    1
2    1
3    0
4    1
  • Or just s.astype(int) instead of the whole binary vector logic. I see no fundamental difference or benefit versus @AlexRiley's solution, can you see any? – jpp Apr 8 '19 at 1:49
  • You are so right! Thank you, I'll edit my post and put it there – pink.slash Apr 9 '19 at 3:12
  • In fact, I'm getting a problem. Could you please help me with this: pattern='wiring | media | elect' v=pd.Series(['electricity fault']) s=v.str.contains(pattern, flags=re.IGNORECASE, regex=True) print(s) The output is: 0 False dtype: bool – pink.slash Apr 9 '19 at 4:40
  • what if I want an EXACT match? for example 'the rat'? – Chadee Fouad Dec 11 '19 at 7:07
  • pattern='the rat' – pink.slash Jan 19 '20 at 7:38

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