reggie is a Python package that makes regular expressions readable and easy to use
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README.md

Simpler regular expressions in Python

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Regular Expressions are powerful but they can be hard to tame.

There’s an old programmer’s joke:

A programmer has a problem, and she decides to use regular expressions.
Now she has two problems.

Unless you use regular expressions regularly (sorry for the awful pun!), they can be

  • Hard to read
  • Hard to write
  • Hard to debug

reggie makes regular expressions readable and easy to use.

I've used regular expressions for a number of projects over the years, but the idea for reggie came about a decade ago.

I was working on a project where Nat Pryce and I had to parse CDRs (Call Detail Records). These are text files that Telecommunication Service Providers use to identify calls and other services billable to their customers.

The CDRs we received were CSV files with a complex format and we decided to use regexes (Regular Expressions) to verify and interpret them.

We liked regexes, but they were less popular with our business analysts. The BAs were happy with our Java code, but they found the regexes much less readable.

Nat Pryce and I came up with a simple DSL (Domain Specific Language) which we used to describe and then analyse the CDRs. That made it much easier for our BAs and Testers to understand our code, and developers joining the team mastered the code quickly.

The Java syntax was a bit messy, though. These days I do most of my development in Python or APL, and a couple of years ago I realised that Python's syntax would allow a much cleaner implementation, which I called reggie.

It's been useful for several projects, and I decided to share it. You can now use reggie for your own work; it's available on GitHub.

A simple example

Here's the solution to a classic problem, converting variants of North American telephone numbers to international format.

(The code is in the examples directory).

from reggie.core import *

d3 = digit + digit + digit
d4 = d3 + digit
international = name(optional(escape('+1')),'i')
area = optional(osp + lp + name(d3,'area') + rp)
local = osp + name(d3,'exchange') + dash + name(d4,'number')
number = international + area + local


def convert(text, area_default='123'):
    matched = match(number, text)
    if matched is None:
        return None
    default(matched, 'i','+1')
    default(matched, 'area', area_default)
    return '{i} {area} {exchange} {number}'.format(**matched)

print(convert('(123) 345-2192'))
print(convert('345-2192'))
print(convert('+1 (123) 345-2192'))

Here's the output:

+1 123 345 2192
+1 123 345 2192
+1 123 345 2192

CDR Example

The next example is inspired by the original Java-based project.

Here's a simplified example of the format of CDRs (Call Data Records) for UK Land Lines and a raw regex (ugh) that could be used to parse it.

Type,   Caller,         Called,        Date,       Time,       Duration,   Call Class
N,      +448000077938,  +441603761827, 09/08/2015, 07:00:12,   2,
N,      +448450347920,  +441383626902, 27/08/2015, 23:53:15,   146,
V,      +441633614985,  +441633435179, 27/08/2015, 18:36:14,   50,
V,      +441733360100,  +441733925173, 12/08/2015, 02:49:24,   78,
V,      +442074958968,  ,              05/08/2015, 08:01:11,   9,          CALLRETURN
D,      +441392517158,  +447917840223, 22/08/2015, 10:14:39,   2,
V,      +441914801773,  ,              18/08/2015, 17:29:50,   7,           ALARM CALL

Regex: (one long line, split for readability, not a pretty sight!)

(?P<type>(N|V|D)),(?P<caller>\+[0-9]{12,15}),(?P<called>(?:\+[0-9]{12,15})?)
(?P<date>[0-9]{2,2}/[0-9]{2,2}/[0-9]{4,4}),(?P<time>[0-9]{2,2}:[0-9]{2,2}:[0-9]{2,2}),
(?P<duration>[0-9]{1,1}),(?P<call_class>[A-Z]{0,50})

For educational purposes, I've adapted the CDR specification/sample data from the official standard provided by FCS.

I've also omitted a lot of fields and inserted spaces to clarify the layout. The spaces are not present in a real file and the regex examples correctly assume there are no spaces in a real CDR.

Below it you can see the definition of the format using reggie.

from reggie.core import *

call_type = name(one_of('N','V','D'),'call_type')
number = plus + multiple(digit, 12, 15)
dd = multiple(digit, 2, 2)
year = multiple(digit, 4 ,4)
date =  name(dd + slash + dd + slash + year,'date')
time = name(dd + colon + dd + colon + dd,'time')
duration = name(multiple(digit),'duration')
cc = name(multiple(capital, 0, 50),'call_class')
cdr = csv(call_type, name(number,'caller'), name(optional(number),'called'),date, time, duration, cc)

Now you can try to parse some CDRs. The last one is wrongly formatted.

Parsing a well-formed record returns a Python dictionary.

Parsing an ill-formed record returns the value None.

So running

print(cdr.matches('N,+448000077938,+441603761827,09/08/2015,07:00:12,2,'))
print(cdr.matches('V,+442074958968,,05/08/2015,08:01:11,9,CALLRETURN'))
print(cdr.matches('Rubbish!'))

will print

{'caller': '+448000077938', 'call_type': 'N', 'date': '09/08/2015', 'called': '+441603761827', 'duration': '2', 'time': '07:00:12'}
{'caller': '+442074958968', 'call_type': 'V', 'date': '05/08/2015', 'duration': '9', 'call_class': 'CALLRETURN', 'time': '08:01:11'}
None

Other Applications

I've used reggie to build parsers for simple languages. Regular Expressions have some limitations - in particular, you can't use standard regular expressions to analyse recursive grammars. But there are a surprising number of applications where a DSL without recursion does the trick.

I've recently been working on an emulator for the venerable (and wonderful) PDP-8 computer, and I needed to create a Python assembler for PAL, the PDP-8's assembly language. The assembler uses reggie and it's about an A4 page of fairly simple code.

I've also been working on Breadboarder, a DSL for documenting breadboard-based electronics projects. At present you have to define your project using Python code but I think I can use reggie to create a natural-language version.

Watch this space!

Morten Kromberg and I have also been experimenting with an APL version of reggie. APL syntax is well suited to reggie, and the experiments look very promising. We've included our current APL prototype in the main GitHub project and I'll blog about that once the code has stabilised.

In the meantime, take a look at the Python version and leave a comment to let me know what you think of it!