I've looked at this answer and this answer to try to figure out my problem, but I'm not sure they're directly applicable because a) I don't have a condition that always has to be met, and b) the document is so messy that allowing for any of the three to match would result in a large amount of false positives.

So, with that being said, here is my issue. I have lines of text that I want to match that look like this:
x = "10/04 Some brief description blah blah blah 45.00"

where the spacing between everything is messy. Then, I have some lines of text that I want to match that look like this:
y = "VJ../VI Another stupid brief description 1000.00"
z = "11/13 This is another description LO05.13"

The regular expression I'm currently using is this:
regex = r"^(\d\d\s?[1/]\s?\d\d\s?[1/]\d\d)\s+(\S+(?:\s+\S+)*?)\s+(-?\s?[\d,]+\.\d\d)"

The problem is that in y regex doesn't match because there is no date at the beginning of the string; the OCR process messed up. However, we still know that it's a valid line because it has a description and an amount. regex won't match z either because the amount is not a bunch of digits, but we know it's a transaction because there's a date and a description.

I've considered changing the regex to look like this:
regex = r"^(\d\d\s?[1/]\s?\d\d\s?[1/]\d\d\s+)?(\S+(?:\s+\S+)*?)\s+(-?\s?[\d,]+\.\d\d)?"

But I'm worried that that will just match everything in the document (i.e. "Withdrawals and Debits"). And since the two optional pieces of the line of text are on opposite ends of the more consistent piece of the text, I'm not sure how to implement | like in the solutions to the questions I linked.

Is my best option to just make two different regular expressions, linked with |, like so?
regex = r"^(\d\d\s?[1/]\s?\d\d\s?[1/]\d\d\s+)?(\S+(?:\s+\S+)*?)\s+(-?\s?[\d,]+\.\d\d)|^(\d\d\s?[1/]\s?\d\d\s?[1/]\d\d)\s+(\S+(?:\s+\S+)*?)\s+(-?\s?[\d,]+\.\d\d)?"

Any assistance would be appreciated. Thanks

  • Instead of describing what you are doing you should be describing what you are trying to achieve. Provide a relevant sample of the input and the expected output, along with an explanation of how they are related. – Tomalak Apr 14 '16 at 14:28
  • @Tomalak You have a relevant sample of the input, both some that work with the current regex (x) and some that don't work with the current regex (y and z). You also have the expected output: match x, y, and z. They're related because they're all lines I want to capture and should all be captured with one regular expression. The description of what I'm doing is aimed to show what I've tried, which is preferred on SO. So... please tell me how your comment is useful? – brittenb Apr 14 '16 at 14:34
  • @WiktorStribiżew Trying it now. I'll let you know what the outcome is. – brittenb Apr 14 '16 at 14:39
  • I understand it may overfire, but with OCR, it is a Russian roulette. That is why it would nice if you could generalize the cases, try to put them into concrete guidelines: starts with 1-4 non-whitespace, followed with / followed with 2 alpha... ends with a float number. Something like that. – Wiktor Stribiżew Apr 14 '16 at 14:53

With OCR inputs, it is hard to work out a 100% safe approach. Without the actual output to look at, we can only suggest a general idea on how to deal with each concrete case.

Here, I suggest


See the regex demo

The pattern is rather a general one:

  • ^ - start of string/line
  • (\w+[^\s/]*/\w{2}\b.*?) - 1+ alphanumeric symbols or underscore (perhaps, \w+ could be replaced with \w) followed with 0+ non-whitespace and non-/ characters followed with /, then followed with exactly 2 "word" characters followed with a word boundary \b and then as few as possible 0+ characters other than a newline
  • \s* - 0+ whitespace
  • (\d+\.\d{2}) - the final float number that can have 1+ digits in the integer part and 2 in the decimal part
  • $ - end of string/line

Playing around with the limiting quantifier and character classes, you can further fine tune the pattern.

  • The reason for my question to find a way to find lines of text that were close to matches that I had already successfully matched. I wanted to create an interactive approach to parsing where the computer could identify near hits and ask the user if it was a true hit or a false positive. I thought the way to do this was through matching two of the three groups, but this regex successfully matches the close hits. Therefore, I'm considering the question answered. The regex was tweaked to match my specific data, but it served its purpose. Thanks! – brittenb Apr 14 '16 at 18:20

I think the solution suggested in the title is to break the things you are looking for into a series of more focused regex's and then see how many of them you meet.

For example I made:

regex = r"\d\d/\d\d"
regex_2 = r".*\s[\d]+\.\d\d"

Then did:

for i in [x,y,z]:
  tests = [re.match(regex, i), re.match(regex_2, i)]
  print sum([1 if j else 0 for j in tests])

And got:


I'd need more info before writing the third regex for the description, but I think this is the way forward.

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