Is there any benefit in using compile for regular expressions in Python?
h = re.compile('hello') h.match('hello world')
re.match('hello', 'hello world')
I've had a lot of experience running a compiled regex 1000s of times versus compiling on-the-fly, and have not noticed any perceivable difference. Obviously, this is anecdotal, and certainly not a great argument against compiling, but I've found the difference to be negligible.
After a quick glance at the actual Python 2.5 library code, I see that Python internally compiles AND CACHES regexes whenever you use them anyway (including calls to
From module re.py (comments are mine):
I still often pre-compile regular expressions, but only to bind them to a nice, reusable name, not for any expected performance gain.
Even a simple expression such as
It's certainly possible to store strings and pass them to re.match; however, that's less readable:
Though it is fairly close, the last line of the second feels more natural and simpler when used repeatedly.
so, if you're going to be using the same regex a lot, it may be worth it to do
The standard arguments against premature optimization apply, but I don't think you really lose much clarity/straightforwardness by using
Here's a simple test case:
So it would seem to compiling is faster with this simple case, even if you only match once.
I just tried this myself. For the simple case of parsing a number out of a string and summing it, using a compiled regular expression object is about twice as fast as using the
As others have pointed out, the
However, examination of the code, shows the cache is limited to 100 expressions. This begs the question, how painful is it to overflow the cache? The code contains an internal interface to the regular expression compiler,
Here's my test:
#!/usr/bin/env python import re import time def timed(func): def wrapper(*args): t = time.time() result = func(*args) t = time.time() - t print '%s took %.3f seconds.' % (func.func_name, t) return result return wrapper regularExpression = r'\w+\s+([0-9_]+)\s+\w*' testString = "average 2 never" @timed def noncompiled(): a = 0 for x in xrange(1000000): m = re.match(regularExpression, testString) a += int(m.group(1)) return a @timed def compiled(): a = 0 rgx = re.compile(regularExpression) for x in xrange(1000000): m = rgx.match(testString) a += int(m.group(1)) return a @timed def reallyCompiled(): a = 0 rgx = re.sre_compile.compile(regularExpression) for x in xrange(1000000): m = rgx.match(testString) a += int(m.group(1)) return a @timed def compiledInLoop(): a = 0 for x in xrange(1000000): rgx = re.compile(regularExpression) m = rgx.match(testString) a += int(m.group(1)) return a @timed def reallyCompiledInLoop(): a = 0 for x in xrange(10000): rgx = re.sre_compile.compile(regularExpression) m = rgx.match(testString) a += int(m.group(1)) return a r1 = noncompiled() r2 = compiled() r3 = reallyCompiled() r4 = compiledInLoop() r5 = reallyCompiledInLoop() print "r1 = ", r1 print "r2 = ", r2 print "r3 = ", r3 print "r4 = ", r4 print "r5 = ", r5
And here is the output on my machine:
$ regexTest.py noncompiled took 4.555 seconds. compiled took 2.323 seconds. reallyCompiled took 2.325 seconds. compiledInLoop took 4.620 seconds. reallyCompiledInLoop took 4.074 seconds. r1 = 2000000 r2 = 2000000 r3 = 2000000 r4 = 2000000 r5 = 20000
The 'reallyCompiled' methods use the internal interface, which bypasses the cache. Note the one that compiles on each loop iteration is only iterated 10,000 times, not one million.
In general, I find it is easier to use flags (at least easier to remember how), like
Interestingly, compiling does prove more efficient for me (Python 2.5.2 on Win XP):
Running the above code once as is, and once with the two
I ran this test before stumbling upon the discussion here. However, having run it I thought I'd at least post my results.
I stole and bastardized the example in Jeff Friedl's "Mastering Regular Expressions". This is on a macbook running OSX 10.6 (2Ghz intel core 2 duo, 4GB ram). Python version is 2.6.1.
Run 1 - using re.compile
Run 2 - Not using re.compile
I agree with Honest Abe that the
Running this piece of code:
is same as running this code:
Because, when looked into the source
and (C) is actually:
So, (C) is not the same as (B). In fact, (C) calls (B) after calling (D) which is also called by (A). In other words,
Everyone's interest is, how to get the result of 2.323 seconds. In order to make sure
If we are not using class (which is my request today), then I have no comment. I'm still learning to use global variable in Python, and I know global variable is a bad thing.
One more point, I believe that using
Here are the only cases that (A + B) is better than (C):
Case that (C) is good enough:
Just a recap, here are the A B C:
Thanks for reading.
This is a good question. You often see people use re.compile without reason. It lessens readability. But sure there are lots of times when pre-compiling the expression is called for. Like when you use it repeated times in a loop or some such.
It's like everything about programming (everything in life actually). Apply common sense.
Using the given examples:
The match method in the example above is not the same as the one used below:
The regex object has its own match method with the optional pos and endpos parameters:
The regex object's search, findall, and finditer methods also support these parameters.
A match object has attributes that complement these parameters:
A regex object has two unique, possibly useful, attributes:
And finally, a match object has this attribute:
Performance difference aside, using re.compile and using the compiled regular expression object to do match (whatever regular expression related operations) makes the semantics clearer to Python run-time.
I had some painful experience of debugging some simple code:
and later I'd use compare in
I had trouble that
But if I used the re.compile form:
Python would have complained that "string does not have attribute of match", as by positional argument mapping in
In my case, using re.compile is more explicit of the purpose of regular expression, when it's value is hidden to naked eyes, thus I could get more help from Python run-time checking.
So the moral of my lesson is that when the regular expression is not just literal string, then I should use re.compile to let Python to help me to assert my assumption.
There is one addition perk of using re.compile(), in the form of adding comments to my regex patterns using re.VERBOSE
Although this does not affect the speed of running your code, I like to do it this way as it is part of my commenting habit. I throughly dislike spending time trying to remember the logic that went behind my code 2 months down the line when I want to make modifications.
Regular Expressions are compiled before being used when using the second version. If you are going to executing it many times it is definatly better to compile it first. If not compiling every time you match for one off's is fine.
(months later) it's easy to add your own cache around re.match, or anything else for that matter --
A wibni, wouldn't it be nice if: cachehint( size= ), cacheinfo() -> size, hits, nclear ...
i'd like to motivate that pre-compiling is both conceptually and 'literately' (as in 'literate programming') advantageous. have a look at this code snippet:
in your application, you'd write:
this is about as simple in terms of functionality as it can get. because this is example is so short, i conflated the way to get
compare this with the more usual style, below:
In the application:
I readily admit that my style is highly unusual for python, maybe even debatable. however, in the example that more closely matches how python is mostly used, in order to do a single match, we must instantiate an object, do three instance dictionary lookups, and perform three function calls; additionally, we might get into
be it said that every subset of measures---targeted, aliased import statements; aliased methods where applicable; reduction of function calls and object dictionary lookups---can help reduce computational and conceptual complexity.
My understanding is that those two examples are effectively equivalent. The only difference is that in the first, you can reuse the compiled regular expression elsewhere without causing it to be compiled again.
Here's a reference for you: http://diveintopython3.ep.io/refactoring.html