# Fastest regular expression that does not match any string

What is the fastest performing regular expression that does not match any string? It may seem like a useless thing, but consider a program that takes a mandatory regex as a filter for instance (this is actually my scenario). I've tried a few and found `b(?<!b)` to be the best performer given that `b` occurs rarely in the input.

Here is a python code I wrote to test different patterns for their speed:

``````#!/usr/bin/env python

import re
import time

tests = [
r'a\A',
r'b\A',
r'a^',
r'b^',
r'[^\s\S]',
r'^(?<=a)',
r'^(?<=b)',
r'a(?<!a)',
r'b(?<!b)',
r'\Za',
r'\Zb',
r'\$a',
r'\$b'
]
timing = []
text = 'a' * 50000000

for t in tests:
pat = re.compile(t)
start = time.time()
pat.search(text)
dur = time.time() - start
timing.append((t, dur))

timing.sort(key=lambda x: x[1])
print('%-30s %s' % ('Pattern', 'Time'))
for t, dur in timing:
print('%-30s %0.3f' % (t, dur))
``````

On my machine, I get the following times:

``````Pattern                        Time
b(?<!b)                        0.043
b\A                            0.043
b^                             0.043
\$a                             0.382
\$b                             0.382
^(?<=a)                        0.395
\Za                            0.395
\Zb                            0.395
^(?<=b)                        0.414
a\A                            0.437
a^                             0.440
a(?<!a)                        0.796
[^\s\S]                        1.469
``````

update: added benchmark for some of suggested regexes.

-
What about `^(?<=x)`? –  Gumbo Jan 26 '13 at 8:28
@Gumbo `^(?<=x)` runs at `0.432` –  Mansour Jan 26 '13 at 8:30
It is unfair comparison for `b(?<!b)` and `a(?<!a)`, since your test string contains of only `a`. And how do you "fastest" here? Your test is only designed to find the fastest that doesn't match the string aa..a. –  nhahtdh Jan 26 '13 at 8:42
@nhahtdh It is not unfair when you compare it to `\Zb` which I expected to perform the fastest. `b(?<!b)` is the best case scenario. Also, picking a character like null character (`\0`) makes it very practical for text input. –  Mansour Jan 26 '13 at 8:45
@nhahtdh regexes that don't match are what I'm after. –  Mansour Jan 26 '13 at 8:47
show 8 more comments

A single character is a valid regular expression. A single character that is not "magic" matches itself. If you can identify a single character that will never, ever appear in your text, you could make a pattern from that.

How about ASCII NUL, character 0?

I stuck in one more string in your test program, the string: `'\0'`

It was about as fast as your best pattern: `b(?<!b)`

Okay, you already have a character after the end of the string. How about a character before the start of the string? That's impossible: `'x^'`

Aha! That's faster than checking for a character after end of string. But it's about as fast as your best pattern.

I suggest replacing the `b` with an ASCII NUL and calling it good. When I tried that pattern: `\0(?<!\0)`

It wins by a tiny fraction. But really, on my computer, all the ones discussed above are so close together that there isn't much to distinguish them.

Results:

``````Pattern                        Time
\0(?<!\0)                      0.098
\0                             0.099
x^                             0.099
b(?<!b)                        0.099
^(?<=x)                        1.416
\$b                             1.446
\$a                             1.447
\Za                            1.462
\Zb                            1.465
[^\s\S]                        2.280
a(?<!a)                        2.843
``````

That was fun. Thanks for posting the question.

EDIT: Ah hah! I rewrote the program to test with real input data, and got a different result.

I downloaded "The Complete Works of William Shakespeare" from Project Gutenberg as a text file. (Weird, it gave an error on `wget` but let my browser get it... some sort of measure to protect against automated copying?) URL: http://www.gutenberg.org/cache/epub/100/pg100.txt

Here are the results, followed by the modified program as I ran it.

``````Pattern                        Time
\0(?<!\0)                      0.110
\0                             0.118
x^                             0.119
b(?<!b)                        0.143
a(?<!a)                        0.275
^(?<=x)                        1.577
\$b                             1.605
\$a                             1.611
\Za                            1.634
\Zb                            1.634
[^\s\S]                        2.441
``````

So yeah I'm definitely going with that first one.

``````#!/usr/bin/env python

import re
import time

tests = [
r'x^',
r'\0',
r'[^\s\S]',
r'^(?<=x)',
r'a(?<!a)',
r'b(?<!b)',
r'\0(?<!\0)',
r'\Za',
r'\Zb',
r'\$a',
r'\$b'
]
timing = []
#text = 'a' * 50000000
text = text * 10

for t in tests:
pat = re.compile(t)
start = time.time()
pat.search(text)
dur = time.time() - start
timing.append((t, dur))

timing.sort(key=lambda x: x[1])
print('%-30s %s' % ('Pattern', 'Time'))
for t, dur in timing:
print('%-30s %0.3f' % (t, dur))
``````
-
It is possible to throw in example to make the `\0` matches, and make `\0(?<!\0)`, `x^`, `b(?<!b)` slows down to other. –  nhahtdh Jan 26 '13 at 9:38
single character regexes can match some string, so they aren't really correct answers. As for `\0(?<!\0)`, that's what I've been using and it's as good as it gets so far. Seeing your `x^`, I thought `a\A` on my original input would be the fastest but it's not. I'm confused as to why the engine keeps looking after the first character. `\A` only matches at the start. –  Mansour Jan 26 '13 at 9:41
@Mansour: Good so far, since you are assuming that `\0` won't appear in text. If you say that you assume the text won't contain `\0`, then it is fair. But no assumption = anything goes. So I can specify `\0` * big number and it will comes in last. –  nhahtdh Jan 26 '13 at 9:44
@nhahtdh I understand that! We just talked about it. That's why my test string is all `a`s and I have two copies of each pattern, one matching `a` and one one matching `b`. Best and worst case. If you want to find which pattern is input agnostic, look for `a` and `b` patterns with similar timing, which are the ones with anchors. –  Mansour Jan 26 '13 at 9:48
@steveha I'd have to say, `a\A` is the best so far, because overall (best and worst case scenario), it's the fastest. –  Mansour Jan 26 '13 at 9:54
show 2 more comments

It's probably not exactly the sort of answer you're looking for, but I fiddled around with this for a few minutes and the best I could do is something like: `'a{%d}' % (len(input)+1)`. Or, in other words, calculate your pattern to be any character with a max quantifier longer than the known length of the string. This obviously only works if you have access to the input string. It appears to scale pretty nicely as well; I took the texts variable out to `texts = [os.urandom(20000) for x in range(20000)]` and in that case `a{20001}` still clocked in at `0.013`.

I haven't, however, calculated the cost of the operations to get the string length and generate the pattern, which you'd obviously have to deal with in the wild.

Updated script:

``````import os
import re
import time

tests = [
r'\0(?<!\0)',
r'\0',
r'x^',
r'a{2001}',
r'a(?<!a)',
r'b(?<!b)',
r'\Za',
r'\Zb',
r'\$a',
r'\$b'
]
texts = [os.urandom(2000) for x in range(20000)]
flag = 0

for t in tests:
pat = re.compile(t)
start = time.time()
for text in texts:
if pat.search(text):
print('%-30s %10s' % (t, "FAILED"))
flag = 1
break
if flag == 0:
dur = time.time() - start
print('%-30s %0.3f' % (t, dur))
else:
flag = 0
``````

Benchmarks:

``````\0(?<!\0)                      0.058
\0                                 FAILED
x^                             0.055
a{2001}                        0.022
a(?<!a)                        0.060
b(?<!b)                        0.073
\Za                            0.798
\Zb                            0.797
\$a                             0.757
\$b                             0.767
``````
-
`\0(?<!\0)`, `\0`, `x^`, `a{2001}`, `a(?<!a)`, `b(?<!b)` are input dependent. You can say it is the fastest for a random string, but with specially crafted string, it won't stay at that low value. –  nhahtdh Jan 26 '13 at 9:36
Ah. In the light of day I realize my answer of `a{len+1}` only works up to `a{65,535}`, meaning it would fail on the OP's test. –  abathur Jan 26 '13 at 18:00
Usually we use the short and convenient `(?!)` which fails directly.
If you want to be more explicit Perl/PCRE has the `(*FAIL)` or `(*F)` verb you can use.
This is interesting. I'm not even sure how it works. Empty negative lookahead? Also, it's rather slow at `0.622`, so I guess the python implementation isn't as smart here. –  Mansour Jan 26 '13 at 10:02