Elegant way of extracting substrings matching regex? - python

Is there a nice way in Python to do:
Check a String matches a set of regular expressions
If yes: get the matching parts back as tuples.
So essentially I want a simple way to enter simple parser/scanner grammars, and simply extract all matching in a certain structure (e.g. tuples)
So suppose we have encoded in a String a country code, an city name and an index. We want to extract this:
input = "123-NEWYORK-[2]"
grammar = "<country,[0-9]+>-<city,[A-Z]*>-[<index,[0-9]*>"
res = HOW_TO_DO_THIS(input,grammar)
if res is None:
print("Does not match")
else
(countrycode,city,index) = res


With python3 you can do, note that the regex has been modified:
import re
input = "123-NEWYORK-[2]"
grammar = r"(?P<country>[0-9]+)-(?P<city>[A-Z]*)-(?P<index>\[[0-9]*\])"
res = re.findall(grammar, input)
if not res:
print("Does not match")
else:
(countrycode,city,index) = res[0]
print(countrycode)
Modifications:
The correct regex would be (?P[0-9]+)-(?P[A-Z])-(?P[[0-9]])
The syntax for regex module in python is re.findall(patter, input_string). Not the opposite.
if not x is easier (and more generic) than if x is None


Check out this code. This is just for simple text lookup but you can extend according to your scenario
import re
f=open('sample.txt',"w")
f.write("<p class = m>babygameover</p>")
f.close()
f=open('sample.txt','r')
string = "<p class = m>(.+?)</p>" # regular expression
pattern = re.compile(string) # compiling
text = f.read()
search = re.findall(pattern,text) # searching
print search

Related

Complex string filtering with python

I have a long string that is a phylogenetic tree and I want to do a very specific filtering.
(Esy#ESY15_g64743_DN3_SP7_c0:0.0726396855636,Aar#AA_maker7399_1:0.137507902808,((Spa#Tp2g18720:0.0318934795022,Cpl#CP2_g48793_DN3_SP8_c:0.0273465005242):9.05326020871e-05,(((Bst#Bostr_13083s0053_1:0.0332592496158,((Aly#AL8G21130_t1:0.0328569260951,Ath#AT5G48370_1:0.0391706378372):0.0205924636564,(Chi#CARHR183840_1:0.0954469923893,Cru#Carubv10026342m:0.0570981548016):0.00998579652059):0.0150356382287):0.0340484449097,(((Hco#scaff1034_g23864_DN3_SP8_c_TE35_CDS100:0.00823215335663,Hlo#DN13684_c0_g1_i1_p1:0.0085462978729):0.0144626717872,Hla#DN22821_c0_g1_i1_p1:0.0225079453622):0.0206478928557,Hse#DN23412_c0_g1_i3_p1:0.048590776459):0.0372829371381):0.00859075940423,(Esa#Thhalv10004228m:0.0378509854703,Aal#Aa_G102140_t1:0.0712272454125):1.00000050003e-06):0.00328120860999):0.0129090235079):0.0129090235079;
Basically every x#y is a species#gene_id information. What I am trying to do is trimming this down so that I will only have x instead of x#y.
(Esy, Aar,(Spa,Cpl))...
I tried splitting the string first but the problem is string has different 'split points' for what I want to achieve i.e. some parts x#y is ending with a , and others with a ). I searched for a solution and saw regular expression operations, but I am new to Python and I couldn't be sure if that is what I should be focusing on. I also thought about strip() but it seems like I need to specify the characters to be stripped for this.
Main problem is there is no 'pattern' for me to tell Python to follow. Only thing is that all species ids are 3 letters and they are before an # character.
Is there a method that can do what I want? I will be really glad if you can help me out with my problem. Thanks in advance.

Give this a try:
import re:
pat = re.compile(r'(\w{3})#')
txt = "(Esy#ESY15_g64743_DN3_SP7_c0:0.0726396855636,Aar#AA_maker7399_1:0.137507902808,((Spa#Tp2g18720:0.0318934795022,Cpl#CP2_g48793_DN3_SP8_c:0.0273465005242):9.05326020871e-05,(((Bst#Bostr_13083s0053_1:0.0332592496158,((Aly#AL8G21130_t1:0.0328569260951,Ath#AT5G48370_1:0.0391706378372):0.0205924636564,(Chi#CARHR183840_1:0.0954469923893,Cru#Carubv10026342m:0.0570981548016):0.00998579652059):0.0150356382287):0.0340484449097,(((Hco#scaff1034_g23864_DN3_SP8_c_TE35_CDS100:0.00823215335663,Hlo#DN13684_c0_g1_i1_p1:0.0085462978729):0.0144626717872,Hla#DN22821_c0_g1_i1_p1:0.0225079453622):0.0206478928557,Hse#DN23412_c0_g1_i3_p1:0.048590776459):0.0372829371381):0.00859075940423,(Esa#Thhalv10004228m:0.0378509854703,Aal#Aa_G102140_t1:0.0712272454125):1.00000050003e-06):0.00328120860999):0.0129090235079):0.0129090235079;"
pat.findall(t)
Result:
['Esy', 'Aar', 'Spa', 'Cpl', 'Bst', 'Aly', 'Ath', 'Chi', 'Cru', 'Hco', 'Hlo', 'Hla', 'Hse', 'Esa', 'Aal']
If you need the structure intact, we can try to remove the unnecessary parts instead:
pat = re.compile(r'(#|:)[^/),]*')
pat.sub('',t).replace(',', ', ')
Result:
'(Esy, Aar, ((Spa, Cpl), (((Bst, ((Aly, Ath), (Chi, Cru))), (((Hco, Hlo), Hla), Hse)), (Esa, Aal))))'
Regex demo

How about this kind of function:
def parse_string(string):
new_string = ''
skip = False
for char in string:
if char == '#':
skip = True
if char == ',':
skip = False
if not skip or char in ['(', ')']:
new_string += char
return new_string
Calling it on your string:
string = '(Esy#ESY15_g64743_DN3_SP7_c0:0.0726396855636,Aar#AA_maker7399_1:0.137507902808,((Spa#Tp2g18720:0.0318934795022,Cpl#CP2_g48793_DN3_SP8_c:0.0273465005242):9.05326020871e-05,(((Bst#Bostr_13083s0053_1:0.0332592496158,((Aly#AL8G21130_t1:0.0328569260951,Ath#AT5G48370_1:0.0391706378372):0.0205924636564,(Chi#CARHR183840_1:0.0954469923893,Cru#Carubv10026342m:0.0570981548016):0.00998579652059):0.0150356382287):0.0340484449097,(((Hco#scaff1034_g23864_DN3_SP8_c_TE35_CDS100:0.00823215335663,Hlo#DN13684_c0_g1_i1_p1:0.0085462978729):0.0144626717872,Hla#DN22821_c0_g1_i1_p1:0.0225079453622):0.0206478928557,Hse#DN23412_c0_g1_i3_p1:0.048590776459):0.0372829371381):0.00859075940423,(Esa#Thhalv10004228m:0.0378509854703,Aal#Aa_G102140_t1:0.0712272454125):1.00000050003e-06):0.00328120860999):0.0129090235079):0.0129090235079;'
parse_string(string)
> '(Esy,Aar,((Spa,Cpl),(((Bst,((Aly,Ath),(Chi,Cru))),(((Hco,Hlo),Hla),Hse)),(Esa,Aal))))'

you can use regex:
import re
s = "(Esy#ESY15_g64743_DN3_SP7_c0:0.0726396855636,Aar#AA_maker7399_1:0.137507902808,((Spa#Tp2g18720:0.0318934795022,Cpl#CP2_g48793_DN3_SP8_c:0.0273465005242):9.05326020871e-05,(((Bst#Bostr_13083s0053_1:0.0332592496158,((Aly#AL8G21130_t1:0.0328569260951,Ath#AT5G48370_1:0.0391706378372):0.0205924636564,(Chi#CARHR183840_1:0.0954469923893,Cru#Carubv10026342m:0.0570981548016):0.00998579652059):0.0150356382287):0.0340484449097,(((Hco#scaff1034_g23864_DN3_SP8_c_TE35_CDS100:0.00823215335663,Hlo#DN13684_c0_g1_i1_p1:0.0085462978729):0.0144626717872,Hla#DN22821_c0_g1_i1_p1:0.0225079453622):0.0206478928557,Hse#DN23412_c0_g1_i3_p1:0.048590776459):0.0372829371381):0.00859075940423,(Esa#Thhalv10004228m:0.0378509854703,Aal#Aa_G102140_t1:0.0712272454125):1.00000050003e-06):0.00328120860999):0.0129090235079):0.0129090235079;"
p = "...?(?=#)|\(|\)"
result = re.findall(p, s)
and you have your result as a list, so you can make it string or do anything with it
for explaining what is happening :
p is regular expression pattern
so in this pattern:
. means matching any word
...?(?=#) means match any word until I get to a word ? wich ? is #, so this whole pattern means that you get any three words before #
| is or statement, I used it here to find another pattern
and the rest of them is to find ) and (

Try this regex if you need the brackets in the output:
import re
regex = r"#[A-Za-z0-9_\.:]+|[0-9:\.;e-]+"
phylogenetic_tree = "(Esy#ESY15_g64743_DN3_SP7_c0:0.0726396855636,Aar#AA_maker7399_1:0.137507902808,((Spa#Tp2g18720:0.0318934795022,Cpl#CP2_g48793_DN3_SP8_c:0.0273465005242):9.05326020871e-05,(((Bst#Bostr_13083s0053_1:0.0332592496158,((Aly#AL8G21130_t1:0.0328569260951,Ath#AT5G48370_1:0.0391706378372):0.0205924636564,(Chi#CARHR183840_1:0.0954469923893,Cru#Carubv10026342m:0.0570981548016):0.00998579652059):0.0150356382287):0.0340484449097,(((Hco#scaff1034_g23864_DN3_SP8_c_TE35_CDS100:0.00823215335663,Hlo#DN13684_c0_g1_i1_p1:0.0085462978729):0.0144626717872,Hla#DN22821_c0_g1_i1_p1:0.0225079453622):0.0206478928557,Hse#DN23412_c0_g1_i3_p1:0.048590776459):0.0372829371381):0.00859075940423,(Esa#Thhalv10004228m:0.0378509854703,Aal#Aa_G102140_t1:0.0712272454125):1.00000050003e-06):0.00328120860999):0.0129090235079):0.0129090235079;"
print(re.sub(regex,"",phylogenetic_tree))
Output:
(Esy,Aar,((Spa,Cpl),(((Bst,((Aly,Ath),(Chi,Cru))),(((Hco,Hlo),Hla),Hs)),(Esa,Aal))))

Because you are trying to parse a phylogenetic tree, I highly suggest to let BioPython do the heavy lifting for you.
You can easily parse and display a phylogenetic with Bio.Phylo. Then it is just iterating over all tree elements and splitting the names at the 'at'-sign.
Because Phylo expects the input to be in a file, we create an in-memory file-like object with io.StringIO. Getting the complete tree is then as easy as
Phylo.read(io.StringIO(s), 'newick')
In order to check if the parsed tree looks sane, I print it once with print(tree).
Now we want to change all node names that contain a '#'. With tree.find_elements we get access to all nodes. Some nodes don't have a name and some might not contain a '#'. So to be extra careful, we first check if n.name and '#' in n.name. Only then do we split each node's name at the '#' and take just the first part (index 0) of it:
n.name = n.name.split('#')[0]
In order to recreate the initial string representation, we use Phylo.write:
out = io.StringIO()
Phylo.write(tree, out, "newick")
print(out.getvalue())
Again, write wants to get a file argument - if we just want to get a string, we can use a StringIO object again.
Full code:
import io
from Bio import Phylo
if __name__ == '__main__':
s = '(Esy#ESY15_g64743_DN3_SP7_c0:0.0726396855636,Aar#AA_maker7399_1:0.137507902808,((Spa#Tp2g18720:0.0318934795022,Cpl#CP2_g48793_DN3_SP8_c:0.0273465005242):9.05326020871e-05,(((Bst#Bostr_13083s0053_1:0.0332592496158,((Aly#AL8G21130_t1:0.0328569260951,Ath#AT5G48370_1:0.0391706378372):0.0205924636564,(Chi#CARHR183840_1:0.0954469923893,Cru#Carubv10026342m:0.0570981548016):0.00998579652059):0.0150356382287):0.0340484449097,(((Hco#scaff1034_g23864_DN3_SP8_c_TE35_CDS100:0.00823215335663,Hlo#DN13684_c0_g1_i1_p1:0.0085462978729):0.0144626717872,Hla#DN22821_c0_g1_i1_p1:0.0225079453622):0.0206478928557,Hse#DN23412_c0_g1_i3_p1:0.048590776459):0.0372829371381):0.00859075940423,(Esa#Thhalv10004228m:0.0378509854703,Aal#Aa_G102140_t1:0.0712272454125):1.00000050003e-06):0.00328120860999):0.0129090235079):0.0129090235079;'
tree = Phylo.read(io.StringIO(s), 'newick')
print(' before '.center(20, '='))
print(tree)
for n in tree.find_elements():
if n.name and '#' in n.name:
n.name = n.name.split('#')[0]
print(' result '.center(20, '='))
out = io.StringIO()
Phylo.write(tree, out, "newick")
print(out.getvalue())
Output:
====== before ======
Tree(rooted=False, weight=1.0)
Clade(branch_length=0.0129090235079)
Clade(branch_length=0.0726396855636, name='Esy#ESY15_g64743_DN3_SP7_c0')
Clade(branch_length=0.137507902808, name='Aar#AA_maker7399_1')
Clade(branch_length=0.0129090235079)
Clade(branch_length=9.05326020871e-05)
Clade(branch_length=0.0318934795022, name='Spa#Tp2g18720')
Clade(branch_length=0.0273465005242, name='Cpl#CP2_g48793_DN3_SP8_c')
Clade(branch_length=0.00328120860999)
Clade(branch_length=0.00859075940423)
Clade(branch_length=0.0340484449097)
Clade(branch_length=0.0332592496158, name='Bst#Bostr_13083s0053_1')
Clade(branch_length=0.0150356382287)
Clade(branch_length=0.0205924636564)
Clade(branch_length=0.0328569260951, name='Aly#AL8G21130_t1')
Clade(branch_length=0.0391706378372, name='Ath#AT5G48370_1')
Clade(branch_length=0.00998579652059)
Clade(branch_length=0.0954469923893, name='Chi#CARHR183840_1')
Clade(branch_length=0.0570981548016, name='Cru#Carubv10026342m')
Clade(branch_length=0.0372829371381)
Clade(branch_length=0.0206478928557)
Clade(branch_length=0.0144626717872)
Clade(branch_length=0.00823215335663, name='Hco#scaff1034_g23864_DN3_SP8_c_TE35_CDS100')
Clade(branch_length=0.0085462978729, name='Hlo#DN13684_c0_g1_i1_p1')
Clade(branch_length=0.0225079453622, name='Hla#DN22821_c0_g1_i1_p1')
Clade(branch_length=0.048590776459, name='Hse#DN23412_c0_g1_i3_p1')
Clade(branch_length=1.00000050003e-06)
Clade(branch_length=0.0378509854703, name='Esa#Thhalv10004228m')
Clade(branch_length=0.0712272454125, name='Aal#Aa_G102140_t1')
==== result =====
(Esy:0.07264,Aar:0.13751,((Spa:0.03189,Cpl:0.02735):0.00009,(((Bst:0.03326,((Aly:0.03286,Ath:0.03917):0.02059,(Chi:0.09545,Cru:0.05710):0.00999):0.01504):0.03405,(((Hco:0.00823,Hlo:0.00855):0.01446,Hla:0.02251):0.02065,Hse:0.04859):0.03728):0.00859,(Esa:0.03785,Aal:0.07123):0.00000):0.00328):0.01291):0.01291;
The default format of Phylo uses less digits than in your original tree. In order to keep the numbers unchanged, just override the branch length format string with a '%s':
Phylo.write(tree, out, "newick", format_branch_length="%s")

Parsing code can be hard to follow. Tatsu lets you write readable parsing code by combining grammars and python:
text = "(Esy#ESY15_g64743_DN3_SP7_c0:0.0726396855636,Aar#AA_maker7399_1:0.137507902808,((Spa#Tp2g18720:0.0318934795022,Cpl#CP2_g48793_DN3_SP8_c:0.0273465005242):9.05326020871e-05,(((Bst#Bostr_13083s0053_1:0.0332592496158,((Aly#AL8G21130_t1:0.0328569260951,Ath#AT5G48370_1:0.0391706378372):0.0205924636564,(Chi#CARHR183840_1:0.0954469923893,Cru#Carubv10026342m:0.0570981548016):0.00998579652059):0.0150356382287):0.0340484449097,(((Hco#scaff1034_g23864_DN3_SP8_c_TE35_CDS100:0.00823215335663,Hlo#DN13684_c0_g1_i1_p1:0.0085462978729):0.0144626717872,Hla#DN22821_c0_g1_i1_p1:0.0225079453622):0.0206478928557,Hse#DN23412_c0_g1_i3_p1:0.048590776459):0.0372829371381):0.00859075940423,(Esa#Thhalv10004228m:0.0378509854703,Aal#Aa_G102140_t1:0.0712272454125):1.00000050003e-06):0.00328120860999):0.0129090235079):0.0129090235079;"
import sys
import tatsu
grammar = """
start = things ';'
;
things = thing [ ',' things ]
;
thing = x '#' y ':' number
| '(' things ')' ':' number
;
x = /\w+/
;
y = /\w+/
;
number = /[+-]?\d+\.?\d*(e?[+-]?\d*)/
;
"""
class Semantics:
def x(self, ast):
# the method name matches the rule name
print('X =', ast)
parser = tatsu.compile(grammar, semantics=Semantics())
parser.parse(text)

Python - Extract text from string

What are the most efficient ways to extract text from a string? Are there some available functions or regex expressions, or some other way?
For example, my string is below and I want to extract the IDs as well
as the ScreenNames, separately.
[User(ID=1234567890, ScreenName=RandomNameHere), User(ID=233323490, ScreenName=AnotherRandomName), User(ID=4459284, ScreenName=YetAnotherName)]
Thank you!
Edit: These are the text strings that I want to pull. I want them to be in a list.
Target_IDs = 1234567890, 233323490, 4459284
Target_ScreenNames = RandomNameHere, AnotherRandomName, YetAnotherName

import re
str = '[User(ID=1234567890, ScreenName=RandomNameHere), User(ID=233323490, ScreenName=AnotherRandomName), User(ID=4459284, ScreenName=YetAnotherName)]'
print 'Target IDs = ' + ','.join( re.findall(r'ID=(\d+)', str) )
print 'Target ScreenNames = ' + ','.join( re.findall(r' ScreenName=(\w+)', str) )
Output :
Target IDs = 1234567890,233323490,4459284
Target ScreenNames = RandomNameHere,AnotherRandomName,YetAnotherName

It depends. Assuming that all your text comes in the form of
TagName = TagValue1, TagValue2, ...
You need just two calls to split.
tag, value_string = string.split('=')
values = value_string.split(',')
Remove the excess space (probably a couple of rstrip()/lstrip() calls will suffice) and you are done. Or you can take regex. They are slightly more powerful, but in this case I think it's a matter of personal taste.
If you want more complex syntax with nonterminals, terminals and all that, you'll need lex/yacc, which will require some background in parsers. A rather interesting thing to play with, but not something you'll want to use for storing program options and such.

The regex I'd use would be:
(?:ID=|ScreenName=)+(\d+|[\w\d]+)
However, this assumes that ID is only digits (\d) and usernames are only letters or numbers ([\w\d]).
This regex (when combined with re.findall) would return a list of matches that could be iterated through and sorted in some fashion like so:
import re
s = "[User(ID=1234567890, ScreenName=RandomNameHere), User(ID=233323490, ScreenName=AnotherRandomName), User(ID=4459284, ScreenName=YetAnotherName)]"
pattern = re.compile(r'(?:ID=|ScreenName=)+(\d+|[\w\d]+)');
ids = []
names = []
for p in re.findall(pattern, s):
if p.isnumeric():
ids.append(p)
else:
names.append(p)
print(ids, names)

Find specific string sections in python

I want to be able to grab sections of strings with a function. Here is an example:
def get_sec(s1,s2,first='{',last='}'):
start = s2.index(first)
end = -(len(s2) - s2.index(last)) + 1
a = "".join(s2.split(first + last))
b = s1[:start] + s1[end:]
print a
print b
if a == b:
return s1[start:end]
else:
print "The strings did not match up"
string = 'contentonemore'
finder = 'content{}more'
print get_sec(string,finder)
#'one'
So that example works...my issue is I want multiple sections, not just one. So my function needs to be able to work for any amount of sections, for example:
test_str = 'contwotentonemorethree'
test_find = 'con{}tent{}more{}'
print get_sec(test_str,test_find)
#['one','two','three']
any ideas on how I can make that function work for an arbitrary number of replacements?

You probably want to use the standard python regex library
import re
a = re.search('con(.*)tent(.*)more(.*)','contwotentonemorethree')
print a.groups()
# ('two', 'one', 'three')
or
print re.findall('con(.)tent(.)more(.*)','contwotentonemorethree')
# [('two', 'one', 'three')]
edit:
you can escape special character in a string using
re.escape(str)
example:
part1 = re.escape('con(')
part2 = re.escape('(tent')
print re.findall(part1 + '(.*)' + part2,'con(two)tent')

It is not just "use regex". you are trying to actually implement regex. well, the easiest way for implemeting regex will be using the re library. of course.

ummm use regex?
import re
re.findall("con(.*)tent(.*)more(.*)",my_string)

Looks like you want something with regular expressions.
Here's python's page about regular expressions: http://docs.python.org/2/library/re.html
As an example, if say you knew that the string would only be broken into segments "con", "tent", "more" you could have:
import re
regex = re.compile(r"(con).*(tent).*(more).*")
s = 'conxxxxtentxxxxxmore'
match = regex.match(s)
Then find the indices of the matches with:
index1 = s.index(match.group(1))
index2 = s.index(match.group(2))
index3 = s.index(match.group(3))
Or if you wanted to find the locations of the other characters (.*):
regex = re.compile(r"con(.*)tent(.*)more(.*)")

Python splitting string to find specific content

I am trying to split a string in python to extract a particular part. I am able to get the part of the string before the symbol < but how do i get the bit after? e.g. the emailaddress part?
>>> s = 'texttexttextblahblah <emailaddress>'
>>> s = s[:s.find('<')]
>>> print s
This above code gives the output texttexttextblahblah 

s = s[s.find('<')+1:-1]
or
s = s.split('<')[1][:-1]

cha0site's and ig0774's answers are pretty straightforward for this case, but it would probably help you to learn regular expressions for times when it's not so simple.
import re
fullString = 'texttexttextblahblah <emailaddress>'
m = re.match(r'(\S+) <(\S+)>', fullString)
part1 = m.group(1)
part2 = m.group(2)

Perhaps being a bit more explicit with a regex isn't a bad idea in this case:
import re
match = re.search("""
(?<=<) # Make sure the match starts after a <
[^<>]* # Match any number of characters except angle brackets""",
subject, re.VERBOSE)
if match:
result = match.group()

python regex for repeating string

I am wanting to verify and then parse this string (in quotes):
string = "start: c12354, c3456, 34526; other stuff that I don't care about"
//Note that some codes begin with 'c'
I would like to verify that the string starts with 'start:' and ends with ';'
Afterward, I would like to have a regex parse out the strings. I tried the following python re code:
regx = r"start: (c?[0-9]+,?)+;"
reg = re.compile(regx)
matched = reg.search(string)
print ' matched.groups()', matched.groups()
I have tried different variations but I can either get the first or the last code but not a list of all three.
Or should I abandon using a regex?
EDIT: updated to reflect part of the problem space I neglected and fixed string difference.
Thanks for all the suggestions - in such a short time.

In Python, this isn’t possible with a single regular expression: each capture of a group overrides the last capture of that same group (in .NET, this would actually be possible since the engine distinguishes between captures and groups).
Your easiest solution is to first extract the part between start: and ; and then using a regular expression to return all matches, not just a single match, using re.findall('c?[0-9]+', text).

You could use the standard string tools, which are pretty much always more readable.
s = "start: c12354, c3456, 34526;"
s.startswith("start:") # returns a boolean if it starts with this string
s.endswith(";") # returns a boolean if it ends with this string
s[6:-1].split(', ') # will give you a list of tokens separated by the string ", "

This can be done (pretty elegantly) with a tool like Pyparsing:
from pyparsing import Group, Literal, Optional, Word
import string
code = Group(Optional(Literal("c"), default='') + Word(string.digits) + Optional(Literal(","), default=''))
parser = Literal("start:") + OneOrMore(code) + Literal(";")
# Read lines from file:
with open('lines.txt', 'r') as f:
for line in f:
try:
result = parser.parseString(line)
codes = [c[1] for c in result[1:-1]]
# Do something with teh codez...
except ParseException exc:
# Oh noes: string doesn't match!
continue
Cleaner than a regular expression, returns a list of codes (no need to string.split), and ignores any extra characters in the line, just like your example.

import re
sstr = re.compile(r'start:([^;]*);')
slst = re.compile(r'(?:c?)(\d+)')
mystr = "start: c12354, c3456, 34526; other stuff that I don't care about"
match = re.match(sstr, mystr)
if match:
res = re.findall(slst, match.group(0))
results in
['12354', '3456', '34526']

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