How do I check if a string matches this pattern?

Uppercase letter, number(s), uppercase letter, number(s)...

Example, These would match:


These wouldn't ('^' points to problem)

  • 4
    could you please explain more why it is a problem?
    – John Woo
    Sep 26 '12 at 5:29
  • 4
    ^([A-Z]\d+){1,}$ like this?
    – Passerby
    Sep 26 '12 at 5:30
  • 1
    In your third example, the problem should be with B and not with A. Sep 26 '12 at 5:33
  • maybe it's a typo error on the problem. both A and B are small letters right? A10b and aB400?
    – John Woo
    Sep 26 '12 at 5:34
  • @Burhan, The problem is with A because B has numbers next to it and A doesn't
    – DanielTA
    Sep 26 '12 at 5:39
import re
pattern = re.compile("^([A-Z][0-9]+)+$")
  • 36
    From the docs on re.match: If zero or more characters at the beginning of string match the regular expression pattern. I just spent like 30 minutes trying to understand why I couldn't match something at the end of a string. Seems like it's not possible with match, is it? For that, re.search(pattern, my_string) works though. Nov 11 '16 at 15:52
  • 3
    @conradk Yes, you're right, I think there's something like an implied ^ at the beginning when you use match. I think it's a bit more complicated then that very simple explanation, but I'm not clear. You are correct that it does start from the beginning of the string though.
    – CrazyCasta
    Nov 11 '16 at 20:10
  • I edited your answer, because it only makes sense with search() in this context.
    – Robo Robok
    Feb 21 at 12:16
  • Yes, but that's what the questioner wants. I'm not sure what you mean by "only makes sense with search()". It works perfectly fine with match.
    – CrazyCasta
    Sep 5 at 21:03

One-liner: re.match(r"pattern", string) # No need to compile

import re
>>> if re.match(r"hello[0-9]+", 'hello1'):
...     print('Yes')

You can evalute it as bool if needed

>>> bool(re.match(r"hello[0-9]+", 'hello1'))
  • 1
    That's weird. Why can you use re.match in the context of an if, but you have to use bool if you're using it elsewhere?
    – LondonRob
    Mar 13 '18 at 13:59
  • 36
    Careful with re.match. It only matches at the start of a string. Have a look at re.search instead.
    – LondonRob
    Mar 13 '18 at 14:02
  • 3
    @LondonRob probably because if checks for the match not being None.
    – Dennis
    Mar 18 '19 at 13:17
  • There's a big need to compile to make sure there are no errors in the regular expressions like bad character range errors May 6 '20 at 17:10
  • 1
    @SuhFangmbeng Compilation is useful when the same re is used in more than one places to improve efficiency. In terms of error .match would throw the same error what .compile does. It's perfectly safe to use.
    – nehem
    May 6 '20 at 21:58

Please try the following:

import re

name = ["A1B1", "djdd", "B2C4", "C2H2", "jdoi","1A4V"]

# Match names.
for element in name:
     m = re.match("(^[A-Z]\d[A-Z]\d)", element)
     if m:
  • 1
    This is the only case that returns the match which is required for getting groups. Best answer in my opinion.
    – Rick Smith
    Dec 12 '16 at 20:59
import re
import sys

prog = re.compile('([A-Z]\d+)+')

while True:
  line = sys.stdin.readline()
  if not line: break

  if prog.match(line):
    print 'matched'
    print 'not matched'
import re

ab = re.compile("^([A-Z]{1}[0-9]{1})+$")

I believe that should work for an uppercase, number pattern.


regular expressions make this easy ...

[A-Z] will match exactly one character between A and Z

\d+ will match one or more digits

() group things (and also return things... but for now just think of them grouping)

+ selects 1 or more


As stated in the comments, all these answers using re.match implicitly matches on the start of the string. re.search is needed if you want to generalize to the whole string.

import re

pattern = re.compile("([A-Z][0-9]+)+")

# finds match anywhere in string
bool(re.search(pattern, 'aA1A1'))  # True

# matches on start of string, even though pattern does not have ^ constraint
bool(re.match(pattern, 'aA1A1'))  # False

Credit: @LondonRob and @conradkleinespel in the comments.

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