how can i get a string after a specific substring .

For example I want to get the string after "world" in my_string="hello python world , i'm a beginner "


The easiest way is probably just to split on your target word

my_string="hello python world , i'm a beginner "
print my_string.split("world",1)[1] 

split takes the word(or character) to split on and optionally a limit to the number of splits.

In this example split on "world" and limit it to only one split.

  • If i need to split a text with the 'low' word and it contains the word lower before it, this will not work! – Leonardo Hermoso Jan 12 '17 at 3:48
  • 1
    you would simpley split 2x target.split('lower',1)[-1].split('low',1)[-1] – Joran Beasley May 27 '17 at 19:02
  • what if the sentence was "hello python Megaworld world , i'm a beginner ". How can I make it look at the whole word and not part of another as 'Megaworld'? Thanks – pbou Dec 25 '18 at 14:50
  • 1
    then the string you search is " world " ... or use regex for word boundrys – Joran Beasley Dec 27 '18 at 5:24
  • 3
    my_string.partition("world")[-1] (or ...[2]) is faster. – Martijn Pieters Jul 16 at 15:47
s1 = "hello python world , i'm a beginner "
s2 = "world"

print s1[s1.index(s2) + len(s2):]

If you want to deal with the case where s2 is not present in s1, then use s1.find(s2) as opposed to index. If the return value of that call is -1, then s2 is not in s1.

  • 7
    +1 for not creating unnecessary copies/substrings – shx2 May 23 '13 at 11:28
  • you get distinct id's (that are separated by several thousand) ... im not sure you dont create unneccessary substrings with this – Joran Beasley Dec 27 '18 at 5:28
  • @JoranBeasley, we only call index(), len() and slice. There is no reason for index() and len() to create substrings, and if they do (I find it hard to believe), that's just an unnecessary implementation detail. Same for slice -- there is no reason for it to create substrings other than the one returned. – shx2 Nov 8 at 18:27
  • @shx2 print( s1[s1.index(s2) + len(s2):] is s1[s1.index(s2) + len(s2):]) – Joran Beasley Nov 9 at 7:00
  • @JoranBeasley what point are you trying to making with this snippet? That on multiple calls different objects are returned? by "unnecessary substrings" I mean substrings other than the one returned, i.e. substrings which are not necessary to create in order to derive the result. – shx2 Nov 9 at 16:14

I'm surprised nobody mentioned partition.

def substring_after(s, delim):
    return s.partition(delim)[2]

IMHO, this solution is more readable than @arshajii's. Other than that, I think @arshajii's is the best for being the fastest -- it does not create any unnecessary copies/substrings.

  • 2
    This is a nice solution, and handles the case where the substring is not part of the base string nicely. – mattmc3 May 4 '14 at 1:47
  • you get distinct id's (that are separated by several thousand) ... im not sure you dont create unneccessary substrings with this (and im too lazy to properly profile it) – Joran Beasley Dec 27 '18 at 5:28
  • 1
    @JoranBeasley, it clearly does create unnecessary substings. I think you misread my answer. – shx2 May 25 at 9:13
  • (so does arashi's I think ... ) – Joran Beasley May 25 at 15:09
  • 2
    Moreover, this is faster than str.split(..., 1). – Martijn Pieters Jul 16 at 15:48

If you want to do this using regex, you could simply use a non-capturing group, to get the word "world" and then grab everything after, like so


The example string is tested here

  • 24
    some people when faced with a problem think "I know , Ill use a regular expression." ... now you have 2 problems... – Joran Beasley Sep 24 '12 at 20:32
  • 2
    haha, my mistake, I thought this was tagged regex so I tried to give a regex answer. Oh well, it's there now. – Tadgh Sep 24 '12 at 20:36
  • 1
    its all good ... its certainly one way of skinning this cat... overkill for this problem though (imho) – Joran Beasley Sep 24 '12 at 20:37
  • The non-capturing group link is no longer pointing to the right thing. – Apteryx Dec 17 '15 at 18:22
  • I consider regex use a bit extra, too, but just yesterday, I was looking for an answer with a regex expression even though I know it could be done differently more efficiently. I was trying to learn more about regex. – Bobort Sep 27 '17 at 16:04

You want to use str.partition():

>>> my_string.partition("world")[2]
" , i'm a beginner "

because this option is faster than the alternatives.

Note that this produces an empty string if the delimiter is missing:

>>> my_string.partition("Monty")[2]  # delimiter missing

If you want to have the original string, then test if the second value returned from str.partition() is non-empty:

prefix, success, result = my_string.partition(delimiter)
if not success: result = prefix

You could also use str.split() with a limit of 1:

>>> my_string.split("world", 1)[-1]
" , i'm a beginner "
>>> my_string.split("Monty", 1)[-1]  # delimiter missing
"hello python world , i'm a beginner "

However, this option is slower. For a best-case scenario, str.partition() is easily about 15% faster compared to str.split():

                                missing        first         lower         upper          last
      str.partition(...)[2]:  [3.745 usec]  [0.434 usec]  [1.533 usec]  <3.543 usec>  [4.075 usec]
str.partition(...) and test:   3.793 usec    0.445 usec    1.597 usec    3.208 usec    4.170 usec
      str.split(..., 1)[-1]:  <3.817 usec>  <0.518 usec>  <1.632 usec>  [3.191 usec]  <4.173 usec>
            % best vs worst:         1.9%         16.2%          6.1%          9.9%          2.3%

This shows timings per execution with inputs here the delimiter is either missing (worst-case scenario), placed first (best case scenario), or in the lower half, upper half or last position. The fastest time is marked with [...] and <...> marks the worst.

The above table is produced by a comprehensive time trial for all three options, produced below. I ran the tests on Python 3.7.4 on a 2017 model 15" Macbook Pro with 2.9 GHz Intel Core i7 and 16 GB ram.

This script generates random sentences with and without the randomly selected delimiter present, and if present, at different positions in the generated sentence, runs the tests in random order with repeats (producing the fairest results accounting for random OS events taking place during testing), and then prints a table of the results:

import random
from itertools import product
from operator import itemgetter
from pathlib import Path
from timeit import Timer

setup = "from __main__ import sentence as s, delimiter as d"
tests = {
    "str.partition(...)[2]": "r = s.partition(d)[2]",
    "str.partition(...) and test": (
        "prefix, success, result = s.partition(d)\n"
        "if not success: result = prefix"
    "str.split(..., 1)[-1]": "r = s.split(d, 1)[-1]",

placement = "missing first lower upper last".split()
delimiter_count = 3

wordfile = Path("/usr/dict/words")  # Linux
if not wordfile.exists():
    # macos
    wordfile = Path("/usr/share/dict/words")
words = [w.strip() for w in wordfile.open()]

def gen_sentence(delimiter, where="missing", l=1000):
    """Generate a random sentence of length l

    The delimiter is incorporated according to the value of where:

    "missing": no delimiter
    "first":   delimiter is the first word
    "lower":   delimiter is present in the first half
    "upper":   delimiter is present in the second half
    "last":    delimiter is the last word

    possible = [w for w in words if delimiter not in w]
    sentence = random.choices(possible, k=l)
    half = l // 2
    if where == "first":
        # best case, at the start
        sentence[0] = delimiter
    elif where == "lower":
        # lower half
        sentence[random.randrange(1, half)] = delimiter
    elif where == "upper":
        sentence[random.randrange(half, l)] = delimiter
    elif where == "last":
        sentence[-1] = delimiter
    # else: worst case, no delimiter

    return " ".join(sentence)

delimiters = random.choices(words, k=delimiter_count)
timings = {}
sentences = [
    # where, delimiter, sentence
    (w, d, gen_sentence(d, w)) for d, w in product(delimiters, placement)
test_mix = [
    # label, test, where, delimiter sentence
    (*t, *s) for t, s in product(tests.items(), sentences)

for i, (label, test, where, delimiter, sentence) in enumerate(test_mix, 1):
    print(f"\rRunning timed tests, {i:2d}/{len(test_mix)}", end="")
    t = Timer(test, setup)
    number, _ = t.autorange()
    results = t.repeat(5, number)
    # best time for this specific random sentence and placement
        label, {}
        where, []
    ).append(min(dt / number for dt in results))


scales = [(1.0, 'sec'), (0.001, 'msec'), (1e-06, 'usec'), (1e-09, 'nsec')]
width = max(map(len, timings))
rows = []
bestrow = dict.fromkeys(placement, (float("inf"), None))
worstrow = dict.fromkeys(placement, (float("-inf"), None))

for row, label in enumerate(tests):
    columns = []
    worst = float("-inf")
    for p in placement:
        timing = min(timings[label][p])
        if timing < bestrow[p][0]:
            bestrow[p] = (timing, row)
        if timing > worstrow[p][0]:
            worstrow[p] = (timing, row)
        worst = max(timing, worst)

    scale, unit = next((s, u) for s, u in scales if worst >= s)
        [f"{label:>{width}}:", *(f" {c / scale:.3f} {unit} " for c in columns)]

colwidth = max(len(c) for r in rows for c in r[1:])
print(' ' * (width + 1), *(p.center(colwidth) for p in placement), sep="  ")
for r, row in enumerate(rows):
    for c, p in enumerate(placement, 1):
        if bestrow[p][1] == r:
            row[c] = f"[{row[c][1:-1]}]"
        elif worstrow[p][1] == r:
            row[c] = f"<{row[c][1:-1]}>"
    print(*row, sep="  ")

percentages = []
for p in placement:
    best, worst = bestrow[p][0], worstrow[p][0]
    ratio = ((worst - best) / worst)
    percentages.append(f"{ratio:{colwidth - 1}.1%} ")

print("% best vs worst:".rjust(width + 1), *percentages, sep="  ")
  • great answer! especially because you provide the real reason this is better :P – Joran Beasley Nov 9 at 7:02

It's an old question but i faced a very same scenario, i need to split a string using as demiliter the word "low" the problem for me was that i have in the same string the word below and lower.

I solved it using the re module this way

import re

string = '...below...as higher prices mean lower demand to be expected. Generally, a high reading is seen as negative (or bearish), while a low reading is seen as positive (or bullish) for the Korean Won.'

use re.split with regex to match the exact word

stringafterword = re.split('\\blow\\b',string)[-1]
' reading is seen as positive (or bullish) for the Korean Won.'

the generic code is:


Hope this can help someone!

  • 1
    Perhaps you could also just use: string.partition(" low ")[2]? (Note the spaces on either side of low – Mtl Dev Feb 8 '17 at 15:49

You can use this package called "substring". Just type "pip install substring". You can get the substring by just mentioning the start and end characters/indices.

For example:

import substring

s = substring.substringByChar("abcdefghijklmnop", startChar="d", endChar="n")



s = defghijklmn

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