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
random.seed(321)
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:
A.add_word(word.lower())
A.make_automaton()
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))
```