cpython/Doc/howto/regex.rst

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.. _regex-howto:
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Merged revisions 68133-68134,68141-68142,68145-68146,68148-68149,68159-68162,68166,68171-68174,68179,68195-68196,68210,68214-68215,68217-68222 via svnmerge from svn+ssh://pythondev@svn.python.org/python/trunk ........ r68133 | antoine.pitrou | 2009-01-01 16:38:03 +0100 (Thu, 01 Jan 2009) | 1 line fill in actual issue number in tests ........ r68134 | hirokazu.yamamoto | 2009-01-01 16:45:39 +0100 (Thu, 01 Jan 2009) | 2 lines Issue #4797: IOError.filename was not set when _fileio.FileIO failed to open file with `str' filename on Windows. ........ r68141 | benjamin.peterson | 2009-01-01 17:43:12 +0100 (Thu, 01 Jan 2009) | 1 line fix highlighting ........ r68142 | benjamin.peterson | 2009-01-01 18:29:49 +0100 (Thu, 01 Jan 2009) | 2 lines welcome to 2009, Python! ........ r68145 | amaury.forgeotdarc | 2009-01-02 01:03:54 +0100 (Fri, 02 Jan 2009) | 5 lines #4801 _collections module fails to build on cygwin. _PyObject_GC_TRACK is the macro version of PyObject_GC_Track, and according to documentation it should not be used for extension modules. ........ r68146 | ronald.oussoren | 2009-01-02 11:44:46 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue4472: "configure --enable-shared doesn't work on OSX" ........ r68148 | ronald.oussoren | 2009-01-02 11:48:31 +0100 (Fri, 02 Jan 2009) | 2 lines Forgot to add a NEWS item in my previous checkin ........ r68149 | ronald.oussoren | 2009-01-02 11:50:48 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue4780 ........ r68159 | ronald.oussoren | 2009-01-02 15:48:17 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue 1627952 ........ r68160 | ronald.oussoren | 2009-01-02 15:52:09 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue r1737832 ........ r68161 | ronald.oussoren | 2009-01-02 16:00:05 +0100 (Fri, 02 Jan 2009) | 3 lines Fix for issue 1149804 ........ r68162 | ronald.oussoren | 2009-01-02 16:06:00 +0100 (Fri, 02 Jan 2009) | 3 lines Fix for issue 4472 is incompatible with Cygwin, this patch should fix that. ........ r68166 | benjamin.peterson | 2009-01-02 19:26:23 +0100 (Fri, 02 Jan 2009) | 1 line document PyMemberDef ........ r68171 | georg.brandl | 2009-01-02 21:25:14 +0100 (Fri, 02 Jan 2009) | 3 lines #4811: fix markup glitches (mostly remains of the conversion), found by Gabriel Genellina. ........ r68172 | martin.v.loewis | 2009-01-02 21:32:55 +0100 (Fri, 02 Jan 2009) | 2 lines Issue #4075: Use OutputDebugStringW in Py_FatalError. ........ r68173 | martin.v.loewis | 2009-01-02 21:40:14 +0100 (Fri, 02 Jan 2009) | 2 lines Issue #4051: Prevent conflict of UNICODE macros in cPickle. ........ r68174 | benjamin.peterson | 2009-01-02 21:47:27 +0100 (Fri, 02 Jan 2009) | 1 line fix compilation on non-Windows platforms ........ r68179 | raymond.hettinger | 2009-01-02 22:26:45 +0100 (Fri, 02 Jan 2009) | 1 line Issue #4615. Document how to use itertools for de-duping. ........ r68195 | georg.brandl | 2009-01-03 14:45:15 +0100 (Sat, 03 Jan 2009) | 2 lines Remove useless string literal. ........ r68196 | georg.brandl | 2009-01-03 15:29:53 +0100 (Sat, 03 Jan 2009) | 2 lines Fix indentation. ........ r68210 | georg.brandl | 2009-01-03 20:10:12 +0100 (Sat, 03 Jan 2009) | 2 lines Set eol-style correctly for mp_distributing.py. ........ r68214 | georg.brandl | 2009-01-03 20:44:48 +0100 (Sat, 03 Jan 2009) | 2 lines Make indentation consistent. ........ r68215 | georg.brandl | 2009-01-03 21:15:14 +0100 (Sat, 03 Jan 2009) | 2 lines Fix role name. ........ r68217 | georg.brandl | 2009-01-03 21:30:15 +0100 (Sat, 03 Jan 2009) | 2 lines Add rstlint, a little tool to find subtle markup problems and inconsistencies in the Doc sources. ........ r68218 | georg.brandl | 2009-01-03 21:38:59 +0100 (Sat, 03 Jan 2009) | 2 lines Recognize usage of the default role. ........ r68219 | georg.brandl | 2009-01-03 21:47:01 +0100 (Sat, 03 Jan 2009) | 2 lines Fix uses of the default role. ........ r68220 | georg.brandl | 2009-01-03 21:55:06 +0100 (Sat, 03 Jan 2009) | 2 lines Remove trailing whitespace. ........ r68221 | georg.brandl | 2009-01-03 22:04:55 +0100 (Sat, 03 Jan 2009) | 2 lines Remove tabs from the documentation. ........ r68222 | georg.brandl | 2009-01-03 22:11:58 +0100 (Sat, 03 Jan 2009) | 2 lines Disable the line length checker by default. ........
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Regular Expression HOWTO
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****************************
:Author: A.M. Kuchling
:Release: 0.05
2007-12-29 06:57:00 -04:00
.. TODO:
Document lookbehind assertions
Better way of displaying a RE, a string, and what it matches
Mention optional argument to match.groups()
Unicode (at least a reference)
2007-08-15 11:28:01 -03:00
.. topic:: Abstract
This document is an introductory tutorial to using regular expressions in Python
with the :mod:`re` module. It provides a gentler introduction than the
corresponding section in the Library Reference.
Introduction
============
The :mod:`re` module was added in Python 1.5, and provides Perl-style regular
expression patterns. Earlier versions of Python came with the :mod:`regex`
module, which provided Emacs-style patterns. The :mod:`regex` module was
removed completely in Python 2.5.
Regular expressions (called REs, or regexes, or regex patterns) are essentially
a tiny, highly specialized programming language embedded inside Python and made
available through the :mod:`re` module. Using this little language, you specify
the rules for the set of possible strings that you want to match; this set might
contain English sentences, or e-mail addresses, or TeX commands, or anything you
like. You can then ask questions such as "Does this string match the pattern?",
or "Is there a match for the pattern anywhere in this string?". You can also
use REs to modify a string or to split it apart in various ways.
Regular expression patterns are compiled into a series of bytecodes which are
then executed by a matching engine written in C. For advanced use, it may be
necessary to pay careful attention to how the engine will execute a given RE,
and write the RE in a certain way in order to produce bytecode that runs faster.
Optimization isn't covered in this document, because it requires that you have a
good understanding of the matching engine's internals.
The regular expression language is relatively small and restricted, so not all
possible string processing tasks can be done using regular expressions. There
are also tasks that *can* be done with regular expressions, but the expressions
turn out to be very complicated. In these cases, you may be better off writing
Python code to do the processing; while Python code will be slower than an
elaborate regular expression, it will also probably be more understandable.
Simple Patterns
===============
We'll start by learning about the simplest possible regular expressions. Since
regular expressions are used to operate on strings, we'll begin with the most
common task: matching characters.
For a detailed explanation of the computer science underlying regular
expressions (deterministic and non-deterministic finite automata), you can refer
to almost any textbook on writing compilers.
Matching Characters
-------------------
Most letters and characters will simply match themselves. For example, the
regular expression ``test`` will match the string ``test`` exactly. (You can
enable a case-insensitive mode that would let this RE match ``Test`` or ``TEST``
as well; more about this later.)
There are exceptions to this rule; some characters are special
:dfn:`metacharacters`, and don't match themselves. Instead, they signal that
some out-of-the-ordinary thing should be matched, or they affect other portions
of the RE by repeating them or changing their meaning. Much of this document is
devoted to discussing various metacharacters and what they do.
Here's a complete list of the metacharacters; their meanings will be discussed
in the rest of this HOWTO. ::
. ^ $ * + ? { [ ] \ | ( )
The first metacharacters we'll look at are ``[`` and ``]``. They're used for
specifying a character class, which is a set of characters that you wish to
match. Characters can be listed individually, or a range of characters can be
indicated by giving two characters and separating them by a ``'-'``. For
example, ``[abc]`` will match any of the characters ``a``, ``b``, or ``c``; this
is the same as ``[a-c]``, which uses a range to express the same set of
characters. If you wanted to match only lowercase letters, your RE would be
``[a-z]``.
Metacharacters are not active inside classes. For example, ``[akm$]`` will
match any of the characters ``'a'``, ``'k'``, ``'m'``, or ``'$'``; ``'$'`` is
usually a metacharacter, but inside a character class it's stripped of its
special nature.
You can match the characters not listed within the class by :dfn:`complementing`
the set. This is indicated by including a ``'^'`` as the first character of the
class; ``'^'`` outside a character class will simply match the ``'^'``
character. For example, ``[^5]`` will match any character except ``'5'``.
Perhaps the most important metacharacter is the backslash, ``\``. As in Python
string literals, the backslash can be followed by various characters to signal
various special sequences. It's also used to escape all the metacharacters so
you can still match them in patterns; for example, if you need to match a ``[``
or ``\``, you can precede them with a backslash to remove their special
meaning: ``\[`` or ``\\``.
Some of the special sequences beginning with ``'\'`` represent predefined sets
of characters that are often useful, such as the set of digits, the set of
letters, or the set of anything that isn't whitespace. The following predefined
special sequences are available:
``\d``
Matches any decimal digit; this is equivalent to the class ``[0-9]``.
``\D``
Matches any non-digit character; this is equivalent to the class ``[^0-9]``.
``\s``
Matches any whitespace character; this is equivalent to the class ``[
\t\n\r\f\v]``.
``\S``
Matches any non-whitespace character; this is equivalent to the class ``[^
\t\n\r\f\v]``.
``\w``
Matches any alphanumeric character; this is equivalent to the class
``[a-zA-Z0-9_]``.
``\W``
Matches any non-alphanumeric character; this is equivalent to the class
``[^a-zA-Z0-9_]``.
These sequences can be included inside a character class. For example,
``[\s,.]`` is a character class that will match any whitespace character, or
``','`` or ``'.'``.
The final metacharacter in this section is ``.``. It matches anything except a
newline character, and there's an alternate mode (``re.DOTALL``) where it will
match even a newline. ``'.'`` is often used where you want to match "any
character".
Repeating Things
----------------
Being able to match varying sets of characters is the first thing regular
expressions can do that isn't already possible with the methods available on
strings. However, if that was the only additional capability of regexes, they
wouldn't be much of an advance. Another capability is that you can specify that
portions of the RE must be repeated a certain number of times.
The first metacharacter for repeating things that we'll look at is ``*``. ``*``
doesn't match the literal character ``*``; instead, it specifies that the
previous character can be matched zero or more times, instead of exactly once.
For example, ``ca*t`` will match ``ct`` (0 ``a`` characters), ``cat`` (1 ``a``),
``caaat`` (3 ``a`` characters), and so forth. The RE engine has various
internal limitations stemming from the size of C's ``int`` type that will
prevent it from matching over 2 billion ``a`` characters; you probably don't
have enough memory to construct a string that large, so you shouldn't run into
that limit.
Repetitions such as ``*`` are :dfn:`greedy`; when repeating a RE, the matching
engine will try to repeat it as many times as possible. If later portions of the
pattern don't match, the matching engine will then back up and try again with
few repetitions.
A step-by-step example will make this more obvious. Let's consider the
expression ``a[bcd]*b``. This matches the letter ``'a'``, zero or more letters
from the class ``[bcd]``, and finally ends with a ``'b'``. Now imagine matching
this RE against the string ``abcbd``.
+------+-----------+---------------------------------+
| Step | Matched | Explanation |
+======+===========+=================================+
| 1 | ``a`` | The ``a`` in the RE matches. |
+------+-----------+---------------------------------+
| 2 | ``abcbd`` | The engine matches ``[bcd]*``, |
| | | going as far as it can, which |
| | | is to the end of the string. |
+------+-----------+---------------------------------+
| 3 | *Failure* | The engine tries to match |
| | | ``b``, but the current position |
| | | is at the end of the string, so |
| | | it fails. |
+------+-----------+---------------------------------+
| 4 | ``abcb`` | Back up, so that ``[bcd]*`` |
| | | matches one less character. |
+------+-----------+---------------------------------+
| 5 | *Failure* | Try ``b`` again, but the |
| | | current position is at the last |
| | | character, which is a ``'d'``. |
+------+-----------+---------------------------------+
| 6 | ``abc`` | Back up again, so that |
| | | ``[bcd]*`` is only matching |
| | | ``bc``. |
+------+-----------+---------------------------------+
| 6 | ``abcb`` | Try ``b`` again. This time |
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| | | the character at the |
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| | | current position is ``'b'``, so |
| | | it succeeds. |
+------+-----------+---------------------------------+
The end of the RE has now been reached, and it has matched ``abcb``. This
demonstrates how the matching engine goes as far as it can at first, and if no
match is found it will then progressively back up and retry the rest of the RE
again and again. It will back up until it has tried zero matches for
``[bcd]*``, and if that subsequently fails, the engine will conclude that the
string doesn't match the RE at all.
Another repeating metacharacter is ``+``, which matches one or more times. Pay
careful attention to the difference between ``*`` and ``+``; ``*`` matches
*zero* or more times, so whatever's being repeated may not be present at all,
while ``+`` requires at least *one* occurrence. To use a similar example,
``ca+t`` will match ``cat`` (1 ``a``), ``caaat`` (3 ``a``'s), but won't match
``ct``.
There are two more repeating qualifiers. The question mark character, ``?``,
matches either once or zero times; you can think of it as marking something as
being optional. For example, ``home-?brew`` matches either ``homebrew`` or
``home-brew``.
The most complicated repeated qualifier is ``{m,n}``, where *m* and *n* are
decimal integers. This qualifier means there must be at least *m* repetitions,
and at most *n*. For example, ``a/{1,3}b`` will match ``a/b``, ``a//b``, and
``a///b``. It won't match ``ab``, which has no slashes, or ``a////b``, which
has four.
You can omit either *m* or *n*; in that case, a reasonable value is assumed for
the missing value. Omitting *m* is interpreted as a lower limit of 0, while
omitting *n* results in an upper bound of infinity --- actually, the upper bound
is the 2-billion limit mentioned earlier, but that might as well be infinity.
Readers of a reductionist bent may notice that the three other qualifiers can
all be expressed using this notation. ``{0,}`` is the same as ``*``, ``{1,}``
is equivalent to ``+``, and ``{0,1}`` is the same as ``?``. It's better to use
``*``, ``+``, or ``?`` when you can, simply because they're shorter and easier
to read.
Using Regular Expressions
=========================
Now that we've looked at some simple regular expressions, how do we actually use
them in Python? The :mod:`re` module provides an interface to the regular
expression engine, allowing you to compile REs into objects and then perform
matches with them.
Compiling Regular Expressions
-----------------------------
Regular expressions are compiled into :class:`RegexObject` instances, which have
methods for various operations such as searching for pattern matches or
performing string substitutions. ::
>>> import re
>>> p = re.compile('ab*')
>>> print p
<re.RegexObject instance at 80b4150>
:func:`re.compile` also accepts an optional *flags* argument, used to enable
various special features and syntax variations. We'll go over the available
settings later, but for now a single example will do::
>>> p = re.compile('ab*', re.IGNORECASE)
The RE is passed to :func:`re.compile` as a string. REs are handled as strings
because regular expressions aren't part of the core Python language, and no
special syntax was created for expressing them. (There are applications that
don't need REs at all, so there's no need to bloat the language specification by
including them.) Instead, the :mod:`re` module is simply a C extension module
included with Python, just like the :mod:`socket` or :mod:`zlib` modules.
Putting REs in strings keeps the Python language simpler, but has one
disadvantage which is the topic of the next section.
The Backslash Plague
--------------------
As stated earlier, regular expressions use the backslash character (``'\'``) to
indicate special forms or to allow special characters to be used without
invoking their special meaning. This conflicts with Python's usage of the same
character for the same purpose in string literals.
Let's say you want to write a RE that matches the string ``\section``, which
might be found in a LaTeX file. To figure out what to write in the program
code, start with the desired string to be matched. Next, you must escape any
backslashes and other metacharacters by preceding them with a backslash,
resulting in the string ``\\section``. The resulting string that must be passed
to :func:`re.compile` must be ``\\section``. However, to express this as a
Python string literal, both backslashes must be escaped *again*.
+-------------------+------------------------------------------+
| Characters | Stage |
+===================+==========================================+
| ``\section`` | Text string to be matched |
+-------------------+------------------------------------------+
| ``\\section`` | Escaped backslash for :func:`re.compile` |
+-------------------+------------------------------------------+
| ``"\\\\section"`` | Escaped backslashes for a string literal |
+-------------------+------------------------------------------+
In short, to match a literal backslash, one has to write ``'\\\\'`` as the RE
string, because the regular expression must be ``\\``, and each backslash must
be expressed as ``\\`` inside a regular Python string literal. In REs that
feature backslashes repeatedly, this leads to lots of repeated backslashes and
makes the resulting strings difficult to understand.
The solution is to use Python's raw string notation for regular expressions;
backslashes are not handled in any special way in a string literal prefixed with
``'r'``, so ``r"\n"`` is a two-character string containing ``'\'`` and ``'n'``,
while ``"\n"`` is a one-character string containing a newline. Regular
expressions will often be written in Python code using this raw string notation.
+-------------------+------------------+
| Regular String | Raw string |
+===================+==================+
| ``"ab*"`` | ``r"ab*"`` |
+-------------------+------------------+
| ``"\\\\section"`` | ``r"\\section"`` |
+-------------------+------------------+
| ``"\\w+\\s+\\1"`` | ``r"\w+\s+\1"`` |
+-------------------+------------------+
Performing Matches
------------------
Once you have an object representing a compiled regular expression, what do you
do with it? :class:`RegexObject` instances have several methods and attributes.
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Only the most significant ones will be covered here; consult the :mod:`re` docs
for a complete listing.
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+------------------+-----------------------------------------------+
| Method/Attribute | Purpose |
+==================+===============================================+
| ``match()`` | Determine if the RE matches at the beginning |
| | of the string. |
+------------------+-----------------------------------------------+
| ``search()`` | Scan through a string, looking for any |
| | location where this RE matches. |
+------------------+-----------------------------------------------+
| ``findall()`` | Find all substrings where the RE matches, and |
| | returns them as a list. |
+------------------+-----------------------------------------------+
| ``finditer()`` | Find all substrings where the RE matches, and |
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| | returns them as an :term:`iterator`. |
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+------------------+-----------------------------------------------+
:meth:`match` and :meth:`search` return ``None`` if no match can be found. If
they're successful, a ``MatchObject`` instance is returned, containing
information about the match: where it starts and ends, the substring it matched,
and more.
You can learn about this by interactively experimenting with the :mod:`re`
module. If you have Tkinter available, you may also want to look at
:file:`Tools/scripts/redemo.py`, a demonstration program included with the
Python distribution. It allows you to enter REs and strings, and displays
whether the RE matches or fails. :file:`redemo.py` can be quite useful when
trying to debug a complicated RE. Phil Schwartz's `Kodos
<http://kodos.sourceforge.net/>`_ is also an interactive tool for developing and
testing RE patterns.
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This HOWTO uses the standard Python interpreter for its examples. First, run the
Python interpreter, import the :mod:`re` module, and compile a RE::
Python 2.2.2 (#1, Feb 10 2003, 12:57:01)
>>> import re
>>> p = re.compile('[a-z]+')
>>> p
<_sre.SRE_Pattern object at 80c3c28>
Now, you can try matching various strings against the RE ``[a-z]+``. An empty
string shouldn't match at all, since ``+`` means 'one or more repetitions'.
:meth:`match` should return ``None`` in this case, which will cause the
interpreter to print no output. You can explicitly print the result of
:meth:`match` to make this clear. ::
>>> p.match("")
>>> print p.match("")
None
Now, let's try it on a string that it should match, such as ``tempo``. In this
case, :meth:`match` will return a :class:`MatchObject`, so you should store the
result in a variable for later use. ::
>>> m = p.match('tempo')
>>> print m
<_sre.SRE_Match object at 80c4f68>
Now you can query the :class:`MatchObject` for information about the matching
string. :class:`MatchObject` instances also have several methods and
attributes; the most important ones are:
+------------------+--------------------------------------------+
| Method/Attribute | Purpose |
+==================+============================================+
| ``group()`` | Return the string matched by the RE |
+------------------+--------------------------------------------+
| ``start()`` | Return the starting position of the match |
+------------------+--------------------------------------------+
| ``end()`` | Return the ending position of the match |
+------------------+--------------------------------------------+
| ``span()`` | Return a tuple containing the (start, end) |
| | positions of the match |
+------------------+--------------------------------------------+
Trying these methods will soon clarify their meaning::
>>> m.group()
'tempo'
>>> m.start(), m.end()
(0, 5)
>>> m.span()
(0, 5)
:meth:`group` returns the substring that was matched by the RE. :meth:`start`
and :meth:`end` return the starting and ending index of the match. :meth:`span`
returns both start and end indexes in a single tuple. Since the :meth:`match`
method only checks if the RE matches at the start of a string, :meth:`start`
will always be zero. However, the :meth:`search` method of :class:`RegexObject`
instances scans through the string, so the match may not start at zero in that
case. ::
>>> print p.match('::: message')
None
>>> m = p.search('::: message') ; print m
<re.MatchObject instance at 80c9650>
>>> m.group()
'message'
>>> m.span()
(4, 11)
In actual programs, the most common style is to store the :class:`MatchObject`
in a variable, and then check if it was ``None``. This usually looks like::
p = re.compile( ... )
m = p.match( 'string goes here' )
if m:
print 'Match found: ', m.group()
else:
print 'No match'
Two :class:`RegexObject` methods return all of the matches for a pattern.
:meth:`findall` returns a list of matching strings::
>>> p = re.compile('\d+')
>>> p.findall('12 drummers drumming, 11 pipers piping, 10 lords a-leaping')
['12', '11', '10']
:meth:`findall` has to create the entire list before it can be returned as the
result. The :meth:`finditer` method returns a sequence of :class:`MatchObject`
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instances as an :term:`iterator`. [#]_ ::
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>>> iterator = p.finditer('12 drummers drumming, 11 ... 10 ...')
>>> iterator
<callable-iterator object at 0x401833ac>
>>> for match in iterator:
... print match.span()
...
(0, 2)
(22, 24)
(29, 31)
Module-Level Functions
----------------------
You don't have to create a :class:`RegexObject` and call its methods; the
:mod:`re` module also provides top-level functions called :func:`match`,
:func:`search`, :func:`findall`, :func:`sub`, and so forth. These functions
take the same arguments as the corresponding :class:`RegexObject` method, with
the RE string added as the first argument, and still return either ``None`` or a
:class:`MatchObject` instance. ::
>>> print re.match(r'From\s+', 'Fromage amk')
None
>>> re.match(r'From\s+', 'From amk Thu May 14 19:12:10 1998')
<re.MatchObject instance at 80c5978>
Under the hood, these functions simply produce a :class:`RegexObject` for you
and call the appropriate method on it. They also store the compiled object in a
cache, so future calls using the same RE are faster.
Should you use these module-level functions, or should you get the
:class:`RegexObject` and call its methods yourself? That choice depends on how
frequently the RE will be used, and on your personal coding style. If the RE is
being used at only one point in the code, then the module functions are probably
more convenient. If a program contains a lot of regular expressions, or re-uses
the same ones in several locations, then it might be worthwhile to collect all
the definitions in one place, in a section of code that compiles all the REs
ahead of time. To take an example from the standard library, here's an extract
from :file:`xmllib.py`::
ref = re.compile( ... )
entityref = re.compile( ... )
charref = re.compile( ... )
starttagopen = re.compile( ... )
I generally prefer to work with the compiled object, even for one-time uses, but
few people will be as much of a purist about this as I am.
Compilation Flags
-----------------
Compilation flags let you modify some aspects of how regular expressions work.
Flags are available in the :mod:`re` module under two names, a long name such as
:const:`IGNORECASE` and a short, one-letter form such as :const:`I`. (If you're
familiar with Perl's pattern modifiers, the one-letter forms use the same
letters; the short form of :const:`re.VERBOSE` is :const:`re.X`, for example.)
Multiple flags can be specified by bitwise OR-ing them; ``re.I | re.M`` sets
both the :const:`I` and :const:`M` flags, for example.
Here's a table of the available flags, followed by a more detailed explanation
of each one.
+---------------------------------+--------------------------------------------+
| Flag | Meaning |
+=================================+============================================+
| :const:`DOTALL`, :const:`S` | Make ``.`` match any character, including |
| | newlines |
+---------------------------------+--------------------------------------------+
| :const:`IGNORECASE`, :const:`I` | Do case-insensitive matches |
+---------------------------------+--------------------------------------------+
| :const:`LOCALE`, :const:`L` | Do a locale-aware match |
+---------------------------------+--------------------------------------------+
| :const:`MULTILINE`, :const:`M` | Multi-line matching, affecting ``^`` and |
| | ``$`` |
+---------------------------------+--------------------------------------------+
| :const:`VERBOSE`, :const:`X` | Enable verbose REs, which can be organized |
| | more cleanly and understandably. |
+---------------------------------+--------------------------------------------+
Merged revisions 70642,70648,70656,70661,70765,70773,70789,70824-70825,70828,70830,70832,70836,70838,70842,70851,70855,70857-70858 via svnmerge from svn+ssh://pythondev@svn.python.org/python/trunk ........ r70642 | georg.brandl | 2009-03-28 01:48:48 +0100 (Sa, 28 Mär 2009) | 1 line Fix typo. ........ r70648 | georg.brandl | 2009-03-28 20:10:37 +0100 (Sa, 28 Mär 2009) | 1 line #5324: document __subclasses__(). ........ r70656 | georg.brandl | 2009-03-28 20:33:33 +0100 (Sa, 28 Mär 2009) | 2 lines Add a script to fixup rst files if the pre-commit hook rejects them. ........ r70661 | georg.brandl | 2009-03-28 20:57:36 +0100 (Sa, 28 Mär 2009) | 2 lines Add section numbering to some of the larger subdocuments. ........ r70765 | georg.brandl | 2009-03-31 00:09:34 +0200 (Di, 31 Mär 2009) | 1 line #5199: make warning about vars() assignment more visible. ........ r70773 | georg.brandl | 2009-03-31 00:43:00 +0200 (Di, 31 Mär 2009) | 1 line #5039: make it clear that the impl. note refers to CPython. ........ r70789 | georg.brandl | 2009-03-31 03:25:15 +0200 (Di, 31 Mär 2009) | 1 line Fix a wrong struct field assignment (docstring as closure). ........ r70824 | georg.brandl | 2009-03-31 17:43:20 +0200 (Di, 31 Mär 2009) | 1 line #5519: remove reference to Kodos, which seems dead. ........ r70825 | georg.brandl | 2009-03-31 17:46:30 +0200 (Di, 31 Mär 2009) | 1 line #5566: fix versionadded from PyLong ssize_t functions. ........ r70828 | georg.brandl | 2009-03-31 17:50:16 +0200 (Di, 31 Mär 2009) | 1 line #5581: fget argument of abstractproperty is optional as well. ........ r70830 | georg.brandl | 2009-03-31 18:11:45 +0200 (Di, 31 Mär 2009) | 1 line #5529: backport new docs of import semantics written by Brett to 2.x. ........ r70832 | georg.brandl | 2009-03-31 18:31:11 +0200 (Di, 31 Mär 2009) | 1 line #1386675: specify WindowsError as the exception, because it has a winerror attribute that EnvironmentError doesnt have. ........ r70836 | georg.brandl | 2009-03-31 18:50:25 +0200 (Di, 31 Mär 2009) | 1 line #5417: replace references to undocumented functions by ones to documented functions. ........ r70838 | georg.brandl | 2009-03-31 18:54:38 +0200 (Di, 31 Mär 2009) | 1 line #992207: document that the parser only accepts \\n newlines. ........ r70842 | georg.brandl | 2009-03-31 19:13:06 +0200 (Di, 31 Mär 2009) | 1 line #970783: document PyObject_Generic[GS]etAttr. ........ r70851 | georg.brandl | 2009-03-31 20:26:55 +0200 (Di, 31 Mär 2009) | 1 line #837577: note cryptic return value of spawn*e on invalid env dicts. ........ r70855 | georg.brandl | 2009-03-31 20:30:37 +0200 (Di, 31 Mär 2009) | 1 line #5245: note that PyRun_SimpleString doesnt return on SystemExit. ........ r70857 | georg.brandl | 2009-03-31 20:33:10 +0200 (Di, 31 Mär 2009) | 1 line #5227: note that Py_Main doesnt return on SystemExit. ........ r70858 | georg.brandl | 2009-03-31 20:38:56 +0200 (Di, 31 Mär 2009) | 1 line #5241: document missing U in regex howto. ........
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| :const:`UNICODE`, :const:`U` | Makes several escapes like ``\w``, ``\b``, |
| | ``\s`` and ``\d`` dependent on the Unicode |
| | character database. |
+---------------------------------+--------------------------------------------+
2007-08-15 11:28:01 -03:00
.. data:: I
IGNORECASE
:noindex:
Perform case-insensitive matching; character class and literal strings will
match letters by ignoring case. For example, ``[A-Z]`` will match lowercase
letters, too, and ``Spam`` will match ``Spam``, ``spam``, or ``spAM``. This
lowercasing doesn't take the current locale into account; it will if you also
set the :const:`LOCALE` flag.
.. data:: L
LOCALE
:noindex:
Make ``\w``, ``\W``, ``\b``, and ``\B``, dependent on the current locale.
Locales are a feature of the C library intended to help in writing programs that
take account of language differences. For example, if you're processing French
text, you'd want to be able to write ``\w+`` to match words, but ``\w`` only
matches the character class ``[A-Za-z]``; it won't match ``'é'`` or ``'ç'``. If
your system is configured properly and a French locale is selected, certain C
functions will tell the program that ``'é'`` should also be considered a letter.
Setting the :const:`LOCALE` flag when compiling a regular expression will cause
the resulting compiled object to use these C functions for ``\w``; this is
slower, but also enables ``\w+`` to match French words as you'd expect.
.. data:: M
MULTILINE
:noindex:
(``^`` and ``$`` haven't been explained yet; they'll be introduced in section
:ref:`more-metacharacters`.)
Usually ``^`` matches only at the beginning of the string, and ``$`` matches
only at the end of the string and immediately before the newline (if any) at the
end of the string. When this flag is specified, ``^`` matches at the beginning
of the string and at the beginning of each line within the string, immediately
following each newline. Similarly, the ``$`` metacharacter matches either at
the end of the string and at the end of each line (immediately preceding each
newline).
.. data:: S
DOTALL
:noindex:
Makes the ``'.'`` special character match any character at all, including a
newline; without this flag, ``'.'`` will match anything *except* a newline.
Merged revisions 70642,70648,70656,70661,70765,70773,70789,70824-70825,70828,70830,70832,70836,70838,70842,70851,70855,70857-70858 via svnmerge from svn+ssh://pythondev@svn.python.org/python/trunk ........ r70642 | georg.brandl | 2009-03-28 01:48:48 +0100 (Sa, 28 Mär 2009) | 1 line Fix typo. ........ r70648 | georg.brandl | 2009-03-28 20:10:37 +0100 (Sa, 28 Mär 2009) | 1 line #5324: document __subclasses__(). ........ r70656 | georg.brandl | 2009-03-28 20:33:33 +0100 (Sa, 28 Mär 2009) | 2 lines Add a script to fixup rst files if the pre-commit hook rejects them. ........ r70661 | georg.brandl | 2009-03-28 20:57:36 +0100 (Sa, 28 Mär 2009) | 2 lines Add section numbering to some of the larger subdocuments. ........ r70765 | georg.brandl | 2009-03-31 00:09:34 +0200 (Di, 31 Mär 2009) | 1 line #5199: make warning about vars() assignment more visible. ........ r70773 | georg.brandl | 2009-03-31 00:43:00 +0200 (Di, 31 Mär 2009) | 1 line #5039: make it clear that the impl. note refers to CPython. ........ r70789 | georg.brandl | 2009-03-31 03:25:15 +0200 (Di, 31 Mär 2009) | 1 line Fix a wrong struct field assignment (docstring as closure). ........ r70824 | georg.brandl | 2009-03-31 17:43:20 +0200 (Di, 31 Mär 2009) | 1 line #5519: remove reference to Kodos, which seems dead. ........ r70825 | georg.brandl | 2009-03-31 17:46:30 +0200 (Di, 31 Mär 2009) | 1 line #5566: fix versionadded from PyLong ssize_t functions. ........ r70828 | georg.brandl | 2009-03-31 17:50:16 +0200 (Di, 31 Mär 2009) | 1 line #5581: fget argument of abstractproperty is optional as well. ........ r70830 | georg.brandl | 2009-03-31 18:11:45 +0200 (Di, 31 Mär 2009) | 1 line #5529: backport new docs of import semantics written by Brett to 2.x. ........ r70832 | georg.brandl | 2009-03-31 18:31:11 +0200 (Di, 31 Mär 2009) | 1 line #1386675: specify WindowsError as the exception, because it has a winerror attribute that EnvironmentError doesnt have. ........ r70836 | georg.brandl | 2009-03-31 18:50:25 +0200 (Di, 31 Mär 2009) | 1 line #5417: replace references to undocumented functions by ones to documented functions. ........ r70838 | georg.brandl | 2009-03-31 18:54:38 +0200 (Di, 31 Mär 2009) | 1 line #992207: document that the parser only accepts \\n newlines. ........ r70842 | georg.brandl | 2009-03-31 19:13:06 +0200 (Di, 31 Mär 2009) | 1 line #970783: document PyObject_Generic[GS]etAttr. ........ r70851 | georg.brandl | 2009-03-31 20:26:55 +0200 (Di, 31 Mär 2009) | 1 line #837577: note cryptic return value of spawn*e on invalid env dicts. ........ r70855 | georg.brandl | 2009-03-31 20:30:37 +0200 (Di, 31 Mär 2009) | 1 line #5245: note that PyRun_SimpleString doesnt return on SystemExit. ........ r70857 | georg.brandl | 2009-03-31 20:33:10 +0200 (Di, 31 Mär 2009) | 1 line #5227: note that Py_Main doesnt return on SystemExit. ........ r70858 | georg.brandl | 2009-03-31 20:38:56 +0200 (Di, 31 Mär 2009) | 1 line #5241: document missing U in regex howto. ........
2009-04-05 18:11:43 -03:00
.. data:: U
UNICODE
:index:
Make ``\w``, ``\W``, ``\b``, ``\B``, ``\d``, ``\D``, ``\s`` and ``\S``
dependent on the Unicode character properties database.
2007-08-15 11:28:01 -03:00
.. data:: X
VERBOSE
:noindex:
This flag allows you to write regular expressions that are more readable by
granting you more flexibility in how you can format them. When this flag has
been specified, whitespace within the RE string is ignored, except when the
whitespace is in a character class or preceded by an unescaped backslash; this
lets you organize and indent the RE more clearly. This flag also lets you put
comments within a RE that will be ignored by the engine; comments are marked by
a ``'#'`` that's neither in a character class or preceded by an unescaped
backslash.
For example, here's a RE that uses :const:`re.VERBOSE`; see how much easier it
is to read? ::
charref = re.compile(r"""
Merged revisions 68133-68134,68141-68142,68145-68146,68148-68149,68159-68162,68166,68171-68174,68179,68195-68196,68210,68214-68215,68217-68222 via svnmerge from svn+ssh://pythondev@svn.python.org/python/trunk ........ r68133 | antoine.pitrou | 2009-01-01 16:38:03 +0100 (Thu, 01 Jan 2009) | 1 line fill in actual issue number in tests ........ r68134 | hirokazu.yamamoto | 2009-01-01 16:45:39 +0100 (Thu, 01 Jan 2009) | 2 lines Issue #4797: IOError.filename was not set when _fileio.FileIO failed to open file with `str' filename on Windows. ........ r68141 | benjamin.peterson | 2009-01-01 17:43:12 +0100 (Thu, 01 Jan 2009) | 1 line fix highlighting ........ r68142 | benjamin.peterson | 2009-01-01 18:29:49 +0100 (Thu, 01 Jan 2009) | 2 lines welcome to 2009, Python! ........ r68145 | amaury.forgeotdarc | 2009-01-02 01:03:54 +0100 (Fri, 02 Jan 2009) | 5 lines #4801 _collections module fails to build on cygwin. _PyObject_GC_TRACK is the macro version of PyObject_GC_Track, and according to documentation it should not be used for extension modules. ........ r68146 | ronald.oussoren | 2009-01-02 11:44:46 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue4472: "configure --enable-shared doesn't work on OSX" ........ r68148 | ronald.oussoren | 2009-01-02 11:48:31 +0100 (Fri, 02 Jan 2009) | 2 lines Forgot to add a NEWS item in my previous checkin ........ r68149 | ronald.oussoren | 2009-01-02 11:50:48 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue4780 ........ r68159 | ronald.oussoren | 2009-01-02 15:48:17 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue 1627952 ........ r68160 | ronald.oussoren | 2009-01-02 15:52:09 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue r1737832 ........ r68161 | ronald.oussoren | 2009-01-02 16:00:05 +0100 (Fri, 02 Jan 2009) | 3 lines Fix for issue 1149804 ........ r68162 | ronald.oussoren | 2009-01-02 16:06:00 +0100 (Fri, 02 Jan 2009) | 3 lines Fix for issue 4472 is incompatible with Cygwin, this patch should fix that. ........ r68166 | benjamin.peterson | 2009-01-02 19:26:23 +0100 (Fri, 02 Jan 2009) | 1 line document PyMemberDef ........ r68171 | georg.brandl | 2009-01-02 21:25:14 +0100 (Fri, 02 Jan 2009) | 3 lines #4811: fix markup glitches (mostly remains of the conversion), found by Gabriel Genellina. ........ r68172 | martin.v.loewis | 2009-01-02 21:32:55 +0100 (Fri, 02 Jan 2009) | 2 lines Issue #4075: Use OutputDebugStringW in Py_FatalError. ........ r68173 | martin.v.loewis | 2009-01-02 21:40:14 +0100 (Fri, 02 Jan 2009) | 2 lines Issue #4051: Prevent conflict of UNICODE macros in cPickle. ........ r68174 | benjamin.peterson | 2009-01-02 21:47:27 +0100 (Fri, 02 Jan 2009) | 1 line fix compilation on non-Windows platforms ........ r68179 | raymond.hettinger | 2009-01-02 22:26:45 +0100 (Fri, 02 Jan 2009) | 1 line Issue #4615. Document how to use itertools for de-duping. ........ r68195 | georg.brandl | 2009-01-03 14:45:15 +0100 (Sat, 03 Jan 2009) | 2 lines Remove useless string literal. ........ r68196 | georg.brandl | 2009-01-03 15:29:53 +0100 (Sat, 03 Jan 2009) | 2 lines Fix indentation. ........ r68210 | georg.brandl | 2009-01-03 20:10:12 +0100 (Sat, 03 Jan 2009) | 2 lines Set eol-style correctly for mp_distributing.py. ........ r68214 | georg.brandl | 2009-01-03 20:44:48 +0100 (Sat, 03 Jan 2009) | 2 lines Make indentation consistent. ........ r68215 | georg.brandl | 2009-01-03 21:15:14 +0100 (Sat, 03 Jan 2009) | 2 lines Fix role name. ........ r68217 | georg.brandl | 2009-01-03 21:30:15 +0100 (Sat, 03 Jan 2009) | 2 lines Add rstlint, a little tool to find subtle markup problems and inconsistencies in the Doc sources. ........ r68218 | georg.brandl | 2009-01-03 21:38:59 +0100 (Sat, 03 Jan 2009) | 2 lines Recognize usage of the default role. ........ r68219 | georg.brandl | 2009-01-03 21:47:01 +0100 (Sat, 03 Jan 2009) | 2 lines Fix uses of the default role. ........ r68220 | georg.brandl | 2009-01-03 21:55:06 +0100 (Sat, 03 Jan 2009) | 2 lines Remove trailing whitespace. ........ r68221 | georg.brandl | 2009-01-03 22:04:55 +0100 (Sat, 03 Jan 2009) | 2 lines Remove tabs from the documentation. ........ r68222 | georg.brandl | 2009-01-03 22:11:58 +0100 (Sat, 03 Jan 2009) | 2 lines Disable the line length checker by default. ........
2009-01-03 17:55:17 -04:00
&[#] # Start of a numeric entity reference
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(
0[0-7]+ # Octal form
| [0-9]+ # Decimal form
| x[0-9a-fA-F]+ # Hexadecimal form
)
; # Trailing semicolon
""", re.VERBOSE)
Without the verbose setting, the RE would look like this::
charref = re.compile("&#(0[0-7]+"
"|[0-9]+"
"|x[0-9a-fA-F]+);")
In the above example, Python's automatic concatenation of string literals has
been used to break up the RE into smaller pieces, but it's still more difficult
to understand than the version using :const:`re.VERBOSE`.
More Pattern Power
==================
So far we've only covered a part of the features of regular expressions. In
this section, we'll cover some new metacharacters, and how to use groups to
retrieve portions of the text that was matched.
.. _more-metacharacters:
More Metacharacters
-------------------
There are some metacharacters that we haven't covered yet. Most of them will be
covered in this section.
Some of the remaining metacharacters to be discussed are :dfn:`zero-width
assertions`. They don't cause the engine to advance through the string;
instead, they consume no characters at all, and simply succeed or fail. For
example, ``\b`` is an assertion that the current position is located at a word
boundary; the position isn't changed by the ``\b`` at all. This means that
zero-width assertions should never be repeated, because if they match once at a
given location, they can obviously be matched an infinite number of times.
``|``
Alternation, or the "or" operator. If A and B are regular expressions,
``A|B`` will match any string that matches either ``A`` or ``B``. ``|`` has very
low precedence in order to make it work reasonably when you're alternating
multi-character strings. ``Crow|Servo`` will match either ``Crow`` or ``Servo``,
not ``Cro``, a ``'w'`` or an ``'S'``, and ``ervo``.
To match a literal ``'|'``, use ``\|``, or enclose it inside a character class,
as in ``[|]``.
``^``
Matches at the beginning of lines. Unless the :const:`MULTILINE` flag has been
set, this will only match at the beginning of the string. In :const:`MULTILINE`
mode, this also matches immediately after each newline within the string.
For example, if you wish to match the word ``From`` only at the beginning of a
line, the RE to use is ``^From``. ::
>>> print re.search('^From', 'From Here to Eternity')
<re.MatchObject instance at 80c1520>
>>> print re.search('^From', 'Reciting From Memory')
None
2007-12-29 06:57:00 -04:00
.. To match a literal \character{\^}, use \regexp{\e\^} or enclose it
.. inside a character class, as in \regexp{[{\e}\^]}.
2007-08-15 11:28:01 -03:00
``$``
Matches at the end of a line, which is defined as either the end of the string,
or any location followed by a newline character. ::
>>> print re.search('}$', '{block}')
<re.MatchObject instance at 80adfa8>
>>> print re.search('}$', '{block} ')
None
>>> print re.search('}$', '{block}\n')
<re.MatchObject instance at 80adfa8>
To match a literal ``'$'``, use ``\$`` or enclose it inside a character class,
as in ``[$]``.
``\A``
Matches only at the start of the string. When not in :const:`MULTILINE` mode,
``\A`` and ``^`` are effectively the same. In :const:`MULTILINE` mode, they're
different: ``\A`` still matches only at the beginning of the string, but ``^``
may match at any location inside the string that follows a newline character.
``\Z``
Matches only at the end of the string.
``\b``
Word boundary. This is a zero-width assertion that matches only at the
beginning or end of a word. A word is defined as a sequence of alphanumeric
characters, so the end of a word is indicated by whitespace or a
non-alphanumeric character.
The following example matches ``class`` only when it's a complete word; it won't
match when it's contained inside another word. ::
>>> p = re.compile(r'\bclass\b')
>>> print p.search('no class at all')
<re.MatchObject instance at 80c8f28>
>>> print p.search('the declassified algorithm')
None
>>> print p.search('one subclass is')
None
There are two subtleties you should remember when using this special sequence.
First, this is the worst collision between Python's string literals and regular
expression sequences. In Python's string literals, ``\b`` is the backspace
character, ASCII value 8. If you're not using raw strings, then Python will
convert the ``\b`` to a backspace, and your RE won't match as you expect it to.
The following example looks the same as our previous RE, but omits the ``'r'``
in front of the RE string. ::
>>> p = re.compile('\bclass\b')
>>> print p.search('no class at all')
None
Merged revisions 68133-68134,68141-68142,68145-68146,68148-68149,68159-68162,68166,68171-68174,68179,68195-68196,68210,68214-68215,68217-68222 via svnmerge from svn+ssh://pythondev@svn.python.org/python/trunk ........ r68133 | antoine.pitrou | 2009-01-01 16:38:03 +0100 (Thu, 01 Jan 2009) | 1 line fill in actual issue number in tests ........ r68134 | hirokazu.yamamoto | 2009-01-01 16:45:39 +0100 (Thu, 01 Jan 2009) | 2 lines Issue #4797: IOError.filename was not set when _fileio.FileIO failed to open file with `str' filename on Windows. ........ r68141 | benjamin.peterson | 2009-01-01 17:43:12 +0100 (Thu, 01 Jan 2009) | 1 line fix highlighting ........ r68142 | benjamin.peterson | 2009-01-01 18:29:49 +0100 (Thu, 01 Jan 2009) | 2 lines welcome to 2009, Python! ........ r68145 | amaury.forgeotdarc | 2009-01-02 01:03:54 +0100 (Fri, 02 Jan 2009) | 5 lines #4801 _collections module fails to build on cygwin. _PyObject_GC_TRACK is the macro version of PyObject_GC_Track, and according to documentation it should not be used for extension modules. ........ r68146 | ronald.oussoren | 2009-01-02 11:44:46 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue4472: "configure --enable-shared doesn't work on OSX" ........ r68148 | ronald.oussoren | 2009-01-02 11:48:31 +0100 (Fri, 02 Jan 2009) | 2 lines Forgot to add a NEWS item in my previous checkin ........ r68149 | ronald.oussoren | 2009-01-02 11:50:48 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue4780 ........ r68159 | ronald.oussoren | 2009-01-02 15:48:17 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue 1627952 ........ r68160 | ronald.oussoren | 2009-01-02 15:52:09 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue r1737832 ........ r68161 | ronald.oussoren | 2009-01-02 16:00:05 +0100 (Fri, 02 Jan 2009) | 3 lines Fix for issue 1149804 ........ r68162 | ronald.oussoren | 2009-01-02 16:06:00 +0100 (Fri, 02 Jan 2009) | 3 lines Fix for issue 4472 is incompatible with Cygwin, this patch should fix that. ........ r68166 | benjamin.peterson | 2009-01-02 19:26:23 +0100 (Fri, 02 Jan 2009) | 1 line document PyMemberDef ........ r68171 | georg.brandl | 2009-01-02 21:25:14 +0100 (Fri, 02 Jan 2009) | 3 lines #4811: fix markup glitches (mostly remains of the conversion), found by Gabriel Genellina. ........ r68172 | martin.v.loewis | 2009-01-02 21:32:55 +0100 (Fri, 02 Jan 2009) | 2 lines Issue #4075: Use OutputDebugStringW in Py_FatalError. ........ r68173 | martin.v.loewis | 2009-01-02 21:40:14 +0100 (Fri, 02 Jan 2009) | 2 lines Issue #4051: Prevent conflict of UNICODE macros in cPickle. ........ r68174 | benjamin.peterson | 2009-01-02 21:47:27 +0100 (Fri, 02 Jan 2009) | 1 line fix compilation on non-Windows platforms ........ r68179 | raymond.hettinger | 2009-01-02 22:26:45 +0100 (Fri, 02 Jan 2009) | 1 line Issue #4615. Document how to use itertools for de-duping. ........ r68195 | georg.brandl | 2009-01-03 14:45:15 +0100 (Sat, 03 Jan 2009) | 2 lines Remove useless string literal. ........ r68196 | georg.brandl | 2009-01-03 15:29:53 +0100 (Sat, 03 Jan 2009) | 2 lines Fix indentation. ........ r68210 | georg.brandl | 2009-01-03 20:10:12 +0100 (Sat, 03 Jan 2009) | 2 lines Set eol-style correctly for mp_distributing.py. ........ r68214 | georg.brandl | 2009-01-03 20:44:48 +0100 (Sat, 03 Jan 2009) | 2 lines Make indentation consistent. ........ r68215 | georg.brandl | 2009-01-03 21:15:14 +0100 (Sat, 03 Jan 2009) | 2 lines Fix role name. ........ r68217 | georg.brandl | 2009-01-03 21:30:15 +0100 (Sat, 03 Jan 2009) | 2 lines Add rstlint, a little tool to find subtle markup problems and inconsistencies in the Doc sources. ........ r68218 | georg.brandl | 2009-01-03 21:38:59 +0100 (Sat, 03 Jan 2009) | 2 lines Recognize usage of the default role. ........ r68219 | georg.brandl | 2009-01-03 21:47:01 +0100 (Sat, 03 Jan 2009) | 2 lines Fix uses of the default role. ........ r68220 | georg.brandl | 2009-01-03 21:55:06 +0100 (Sat, 03 Jan 2009) | 2 lines Remove trailing whitespace. ........ r68221 | georg.brandl | 2009-01-03 22:04:55 +0100 (Sat, 03 Jan 2009) | 2 lines Remove tabs from the documentation. ........ r68222 | georg.brandl | 2009-01-03 22:11:58 +0100 (Sat, 03 Jan 2009) | 2 lines Disable the line length checker by default. ........
2009-01-03 17:55:17 -04:00
>>> print p.search('\b' + 'class' + '\b')
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<re.MatchObject instance at 80c3ee0>
Second, inside a character class, where there's no use for this assertion,
``\b`` represents the backspace character, for compatibility with Python's
string literals.
``\B``
Another zero-width assertion, this is the opposite of ``\b``, only matching when
the current position is not at a word boundary.
Grouping
--------
Frequently you need to obtain more information than just whether the RE matched
or not. Regular expressions are often used to dissect strings by writing a RE
divided into several subgroups which match different components of interest.
For example, an RFC-822 header line is divided into a header name and a value,
separated by a ``':'``, like this::
From: author@example.com
User-Agent: Thunderbird 1.5.0.9 (X11/20061227)
MIME-Version: 1.0
To: editor@example.com
This can be handled by writing a regular expression which matches an entire
header line, and has one group which matches the header name, and another group
which matches the header's value.
Groups are marked by the ``'('``, ``')'`` metacharacters. ``'('`` and ``')'``
have much the same meaning as they do in mathematical expressions; they group
together the expressions contained inside them, and you can repeat the contents
of a group with a repeating qualifier, such as ``*``, ``+``, ``?``, or
``{m,n}``. For example, ``(ab)*`` will match zero or more repetitions of
``ab``. ::
>>> p = re.compile('(ab)*')
>>> print p.match('ababababab').span()
(0, 10)
Groups indicated with ``'('``, ``')'`` also capture the starting and ending
index of the text that they match; this can be retrieved by passing an argument
to :meth:`group`, :meth:`start`, :meth:`end`, and :meth:`span`. Groups are
numbered starting with 0. Group 0 is always present; it's the whole RE, so
:class:`MatchObject` methods all have group 0 as their default argument. Later
we'll see how to express groups that don't capture the span of text that they
match. ::
>>> p = re.compile('(a)b')
>>> m = p.match('ab')
>>> m.group()
'ab'
>>> m.group(0)
'ab'
Subgroups are numbered from left to right, from 1 upward. Groups can be nested;
to determine the number, just count the opening parenthesis characters, going
from left to right. ::
>>> p = re.compile('(a(b)c)d')
>>> m = p.match('abcd')
>>> m.group(0)
'abcd'
>>> m.group(1)
'abc'
>>> m.group(2)
'b'
:meth:`group` can be passed multiple group numbers at a time, in which case it
will return a tuple containing the corresponding values for those groups. ::
>>> m.group(2,1,2)
('b', 'abc', 'b')
The :meth:`groups` method returns a tuple containing the strings for all the
subgroups, from 1 up to however many there are. ::
>>> m.groups()
('abc', 'b')
Backreferences in a pattern allow you to specify that the contents of an earlier
capturing group must also be found at the current location in the string. For
example, ``\1`` will succeed if the exact contents of group 1 can be found at
the current position, and fails otherwise. Remember that Python's string
literals also use a backslash followed by numbers to allow including arbitrary
characters in a string, so be sure to use a raw string when incorporating
backreferences in a RE.
For example, the following RE detects doubled words in a string. ::
>>> p = re.compile(r'(\b\w+)\s+\1')
>>> p.search('Paris in the the spring').group()
'the the'
Backreferences like this aren't often useful for just searching through a string
--- there are few text formats which repeat data in this way --- but you'll soon
find out that they're *very* useful when performing string substitutions.
Non-capturing and Named Groups
------------------------------
Elaborate REs may use many groups, both to capture substrings of interest, and
to group and structure the RE itself. In complex REs, it becomes difficult to
keep track of the group numbers. There are two features which help with this
problem. Both of them use a common syntax for regular expression extensions, so
we'll look at that first.
Perl 5 added several additional features to standard regular expressions, and
the Python :mod:`re` module supports most of them. It would have been
difficult to choose new single-keystroke metacharacters or new special sequences
beginning with ``\`` to represent the new features without making Perl's regular
expressions confusingly different from standard REs. If you chose ``&`` as a
new metacharacter, for example, old expressions would be assuming that ``&`` was
a regular character and wouldn't have escaped it by writing ``\&`` or ``[&]``.
The solution chosen by the Perl developers was to use ``(?...)`` as the
extension syntax. ``?`` immediately after a parenthesis was a syntax error
because the ``?`` would have nothing to repeat, so this didn't introduce any
compatibility problems. The characters immediately after the ``?`` indicate
what extension is being used, so ``(?=foo)`` is one thing (a positive lookahead
assertion) and ``(?:foo)`` is something else (a non-capturing group containing
the subexpression ``foo``).
Python adds an extension syntax to Perl's extension syntax. If the first
character after the question mark is a ``P``, you know that it's an extension
that's specific to Python. Currently there are two such extensions:
``(?P<name>...)`` defines a named group, and ``(?P=name)`` is a backreference to
a named group. If future versions of Perl 5 add similar features using a
different syntax, the :mod:`re` module will be changed to support the new
syntax, while preserving the Python-specific syntax for compatibility's sake.
Now that we've looked at the general extension syntax, we can return to the
features that simplify working with groups in complex REs. Since groups are
numbered from left to right and a complex expression may use many groups, it can
become difficult to keep track of the correct numbering. Modifying such a
complex RE is annoying, too: insert a new group near the beginning and you
change the numbers of everything that follows it.
Sometimes you'll want to use a group to collect a part of a regular expression,
but aren't interested in retrieving the group's contents. You can make this fact
explicit by using a non-capturing group: ``(?:...)``, where you can replace the
``...`` with any other regular expression. ::
>>> m = re.match("([abc])+", "abc")
>>> m.groups()
('c',)
>>> m = re.match("(?:[abc])+", "abc")
>>> m.groups()
()
Except for the fact that you can't retrieve the contents of what the group
matched, a non-capturing group behaves exactly the same as a capturing group;
you can put anything inside it, repeat it with a repetition metacharacter such
as ``*``, and nest it within other groups (capturing or non-capturing).
``(?:...)`` is particularly useful when modifying an existing pattern, since you
can add new groups without changing how all the other groups are numbered. It
should be mentioned that there's no performance difference in searching between
capturing and non-capturing groups; neither form is any faster than the other.
A more significant feature is named groups: instead of referring to them by
numbers, groups can be referenced by a name.
The syntax for a named group is one of the Python-specific extensions:
``(?P<name>...)``. *name* is, obviously, the name of the group. Named groups
also behave exactly like capturing groups, and additionally associate a name
with a group. The :class:`MatchObject` methods that deal with capturing groups
all accept either integers that refer to the group by number or strings that
contain the desired group's name. Named groups are still given numbers, so you
can retrieve information about a group in two ways::
>>> p = re.compile(r'(?P<word>\b\w+\b)')
>>> m = p.search( '(((( Lots of punctuation )))' )
>>> m.group('word')
'Lots'
>>> m.group(1)
'Lots'
Named groups are handy because they let you use easily-remembered names, instead
of having to remember numbers. Here's an example RE from the :mod:`imaplib`
module::
InternalDate = re.compile(r'INTERNALDATE "'
r'(?P<day>[ 123][0-9])-(?P<mon>[A-Z][a-z][a-z])-'
Merged revisions 68133-68134,68141-68142,68145-68146,68148-68149,68159-68162,68166,68171-68174,68179,68195-68196,68210,68214-68215,68217-68222 via svnmerge from svn+ssh://pythondev@svn.python.org/python/trunk ........ r68133 | antoine.pitrou | 2009-01-01 16:38:03 +0100 (Thu, 01 Jan 2009) | 1 line fill in actual issue number in tests ........ r68134 | hirokazu.yamamoto | 2009-01-01 16:45:39 +0100 (Thu, 01 Jan 2009) | 2 lines Issue #4797: IOError.filename was not set when _fileio.FileIO failed to open file with `str' filename on Windows. ........ r68141 | benjamin.peterson | 2009-01-01 17:43:12 +0100 (Thu, 01 Jan 2009) | 1 line fix highlighting ........ r68142 | benjamin.peterson | 2009-01-01 18:29:49 +0100 (Thu, 01 Jan 2009) | 2 lines welcome to 2009, Python! ........ r68145 | amaury.forgeotdarc | 2009-01-02 01:03:54 +0100 (Fri, 02 Jan 2009) | 5 lines #4801 _collections module fails to build on cygwin. _PyObject_GC_TRACK is the macro version of PyObject_GC_Track, and according to documentation it should not be used for extension modules. ........ r68146 | ronald.oussoren | 2009-01-02 11:44:46 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue4472: "configure --enable-shared doesn't work on OSX" ........ r68148 | ronald.oussoren | 2009-01-02 11:48:31 +0100 (Fri, 02 Jan 2009) | 2 lines Forgot to add a NEWS item in my previous checkin ........ r68149 | ronald.oussoren | 2009-01-02 11:50:48 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue4780 ........ r68159 | ronald.oussoren | 2009-01-02 15:48:17 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue 1627952 ........ r68160 | ronald.oussoren | 2009-01-02 15:52:09 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue r1737832 ........ r68161 | ronald.oussoren | 2009-01-02 16:00:05 +0100 (Fri, 02 Jan 2009) | 3 lines Fix for issue 1149804 ........ r68162 | ronald.oussoren | 2009-01-02 16:06:00 +0100 (Fri, 02 Jan 2009) | 3 lines Fix for issue 4472 is incompatible with Cygwin, this patch should fix that. ........ r68166 | benjamin.peterson | 2009-01-02 19:26:23 +0100 (Fri, 02 Jan 2009) | 1 line document PyMemberDef ........ r68171 | georg.brandl | 2009-01-02 21:25:14 +0100 (Fri, 02 Jan 2009) | 3 lines #4811: fix markup glitches (mostly remains of the conversion), found by Gabriel Genellina. ........ r68172 | martin.v.loewis | 2009-01-02 21:32:55 +0100 (Fri, 02 Jan 2009) | 2 lines Issue #4075: Use OutputDebugStringW in Py_FatalError. ........ r68173 | martin.v.loewis | 2009-01-02 21:40:14 +0100 (Fri, 02 Jan 2009) | 2 lines Issue #4051: Prevent conflict of UNICODE macros in cPickle. ........ r68174 | benjamin.peterson | 2009-01-02 21:47:27 +0100 (Fri, 02 Jan 2009) | 1 line fix compilation on non-Windows platforms ........ r68179 | raymond.hettinger | 2009-01-02 22:26:45 +0100 (Fri, 02 Jan 2009) | 1 line Issue #4615. Document how to use itertools for de-duping. ........ r68195 | georg.brandl | 2009-01-03 14:45:15 +0100 (Sat, 03 Jan 2009) | 2 lines Remove useless string literal. ........ r68196 | georg.brandl | 2009-01-03 15:29:53 +0100 (Sat, 03 Jan 2009) | 2 lines Fix indentation. ........ r68210 | georg.brandl | 2009-01-03 20:10:12 +0100 (Sat, 03 Jan 2009) | 2 lines Set eol-style correctly for mp_distributing.py. ........ r68214 | georg.brandl | 2009-01-03 20:44:48 +0100 (Sat, 03 Jan 2009) | 2 lines Make indentation consistent. ........ r68215 | georg.brandl | 2009-01-03 21:15:14 +0100 (Sat, 03 Jan 2009) | 2 lines Fix role name. ........ r68217 | georg.brandl | 2009-01-03 21:30:15 +0100 (Sat, 03 Jan 2009) | 2 lines Add rstlint, a little tool to find subtle markup problems and inconsistencies in the Doc sources. ........ r68218 | georg.brandl | 2009-01-03 21:38:59 +0100 (Sat, 03 Jan 2009) | 2 lines Recognize usage of the default role. ........ r68219 | georg.brandl | 2009-01-03 21:47:01 +0100 (Sat, 03 Jan 2009) | 2 lines Fix uses of the default role. ........ r68220 | georg.brandl | 2009-01-03 21:55:06 +0100 (Sat, 03 Jan 2009) | 2 lines Remove trailing whitespace. ........ r68221 | georg.brandl | 2009-01-03 22:04:55 +0100 (Sat, 03 Jan 2009) | 2 lines Remove tabs from the documentation. ........ r68222 | georg.brandl | 2009-01-03 22:11:58 +0100 (Sat, 03 Jan 2009) | 2 lines Disable the line length checker by default. ........
2009-01-03 17:55:17 -04:00
r'(?P<year>[0-9][0-9][0-9][0-9])'
2007-08-15 11:28:01 -03:00
r' (?P<hour>[0-9][0-9]):(?P<min>[0-9][0-9]):(?P<sec>[0-9][0-9])'
r' (?P<zonen>[-+])(?P<zoneh>[0-9][0-9])(?P<zonem>[0-9][0-9])'
r'"')
It's obviously much easier to retrieve ``m.group('zonem')``, instead of having
to remember to retrieve group 9.
The syntax for backreferences in an expression such as ``(...)\1`` refers to the
number of the group. There's naturally a variant that uses the group name
instead of the number. This is another Python extension: ``(?P=name)`` indicates
that the contents of the group called *name* should again be matched at the
current point. The regular expression for finding doubled words,
``(\b\w+)\s+\1`` can also be written as ``(?P<word>\b\w+)\s+(?P=word)``::
>>> p = re.compile(r'(?P<word>\b\w+)\s+(?P=word)')
>>> p.search('Paris in the the spring').group()
'the the'
Lookahead Assertions
--------------------
Another zero-width assertion is the lookahead assertion. Lookahead assertions
are available in both positive and negative form, and look like this:
``(?=...)``
Positive lookahead assertion. This succeeds if the contained regular
expression, represented here by ``...``, successfully matches at the current
location, and fails otherwise. But, once the contained expression has been
tried, the matching engine doesn't advance at all; the rest of the pattern is
tried right where the assertion started.
``(?!...)``
Negative lookahead assertion. This is the opposite of the positive assertion;
it succeeds if the contained expression *doesn't* match at the current position
in the string.
To make this concrete, let's look at a case where a lookahead is useful.
Consider a simple pattern to match a filename and split it apart into a base
name and an extension, separated by a ``.``. For example, in ``news.rc``,
``news`` is the base name, and ``rc`` is the filename's extension.
The pattern to match this is quite simple:
``.*[.].*$``
Notice that the ``.`` needs to be treated specially because it's a
metacharacter; I've put it inside a character class. Also notice the trailing
``$``; this is added to ensure that all the rest of the string must be included
in the extension. This regular expression matches ``foo.bar`` and
``autoexec.bat`` and ``sendmail.cf`` and ``printers.conf``.
Now, consider complicating the problem a bit; what if you want to match
filenames where the extension is not ``bat``? Some incorrect attempts:
``.*[.][^b].*$`` The first attempt above tries to exclude ``bat`` by requiring
that the first character of the extension is not a ``b``. This is wrong,
because the pattern also doesn't match ``foo.bar``.
``.*[.]([^b]..|.[^a].|..[^t])$``
The expression gets messier when you try to patch up the first solution by
requiring one of the following cases to match: the first character of the
extension isn't ``b``; the second character isn't ``a``; or the third character
isn't ``t``. This accepts ``foo.bar`` and rejects ``autoexec.bat``, but it
requires a three-letter extension and won't accept a filename with a two-letter
extension such as ``sendmail.cf``. We'll complicate the pattern again in an
effort to fix it.
``.*[.]([^b].?.?|.[^a]?.?|..?[^t]?)$``
In the third attempt, the second and third letters are all made optional in
order to allow matching extensions shorter than three characters, such as
``sendmail.cf``.
The pattern's getting really complicated now, which makes it hard to read and
understand. Worse, if the problem changes and you want to exclude both ``bat``
and ``exe`` as extensions, the pattern would get even more complicated and
confusing.
A negative lookahead cuts through all this confusion:
``.*[.](?!bat$).*$`` The negative lookahead means: if the expression ``bat``
doesn't match at this point, try the rest of the pattern; if ``bat$`` does
match, the whole pattern will fail. The trailing ``$`` is required to ensure
that something like ``sample.batch``, where the extension only starts with
``bat``, will be allowed.
Excluding another filename extension is now easy; simply add it as an
alternative inside the assertion. The following pattern excludes filenames that
end in either ``bat`` or ``exe``:
``.*[.](?!bat$|exe$).*$``
Modifying Strings
=================
Up to this point, we've simply performed searches against a static string.
Regular expressions are also commonly used to modify strings in various ways,
using the following :class:`RegexObject` methods:
+------------------+-----------------------------------------------+
| Method/Attribute | Purpose |
+==================+===============================================+
| ``split()`` | Split the string into a list, splitting it |
| | wherever the RE matches |
+------------------+-----------------------------------------------+
| ``sub()`` | Find all substrings where the RE matches, and |
| | replace them with a different string |
+------------------+-----------------------------------------------+
| ``subn()`` | Does the same thing as :meth:`sub`, but |
| | returns the new string and the number of |
| | replacements |
+------------------+-----------------------------------------------+
Splitting Strings
-----------------
The :meth:`split` method of a :class:`RegexObject` splits a string apart
wherever the RE matches, returning a list of the pieces. It's similar to the
:meth:`split` method of strings but provides much more generality in the
delimiters that you can split by; :meth:`split` only supports splitting by
whitespace or by a fixed string. As you'd expect, there's a module-level
:func:`re.split` function, too.
.. method:: .split(string [, maxsplit=0])
:noindex:
Split *string* by the matches of the regular expression. If capturing
parentheses are used in the RE, then their contents will also be returned as
part of the resulting list. If *maxsplit* is nonzero, at most *maxsplit* splits
are performed.
You can limit the number of splits made, by passing a value for *maxsplit*.
When *maxsplit* is nonzero, at most *maxsplit* splits will be made, and the
remainder of the string is returned as the final element of the list. In the
following example, the delimiter is any sequence of non-alphanumeric characters.
::
>>> p = re.compile(r'\W+')
>>> p.split('This is a test, short and sweet, of split().')
['This', 'is', 'a', 'test', 'short', 'and', 'sweet', 'of', 'split', '']
>>> p.split('This is a test, short and sweet, of split().', 3)
['This', 'is', 'a', 'test, short and sweet, of split().']
Sometimes you're not only interested in what the text between delimiters is, but
also need to know what the delimiter was. If capturing parentheses are used in
the RE, then their values are also returned as part of the list. Compare the
following calls::
>>> p = re.compile(r'\W+')
>>> p2 = re.compile(r'(\W+)')
>>> p.split('This... is a test.')
['This', 'is', 'a', 'test', '']
>>> p2.split('This... is a test.')
['This', '... ', 'is', ' ', 'a', ' ', 'test', '.', '']
The module-level function :func:`re.split` adds the RE to be used as the first
argument, but is otherwise the same. ::
>>> re.split('[\W]+', 'Words, words, words.')
['Words', 'words', 'words', '']
>>> re.split('([\W]+)', 'Words, words, words.')
['Words', ', ', 'words', ', ', 'words', '.', '']
>>> re.split('[\W]+', 'Words, words, words.', 1)
['Words', 'words, words.']
Search and Replace
------------------
Another common task is to find all the matches for a pattern, and replace them
with a different string. The :meth:`sub` method takes a replacement value,
which can be either a string or a function, and the string to be processed.
.. method:: .sub(replacement, string[, count=0])
:noindex:
Returns the string obtained by replacing the leftmost non-overlapping
occurrences of the RE in *string* by the replacement *replacement*. If the
pattern isn't found, *string* is returned unchanged.
The optional argument *count* is the maximum number of pattern occurrences to be
replaced; *count* must be a non-negative integer. The default value of 0 means
to replace all occurrences.
Here's a simple example of using the :meth:`sub` method. It replaces colour
names with the word ``colour``::
>>> p = re.compile( '(blue|white|red)')
>>> p.sub( 'colour', 'blue socks and red shoes')
'colour socks and colour shoes'
>>> p.sub( 'colour', 'blue socks and red shoes', count=1)
'colour socks and red shoes'
The :meth:`subn` method does the same work, but returns a 2-tuple containing the
new string value and the number of replacements that were performed::
>>> p = re.compile( '(blue|white|red)')
>>> p.subn( 'colour', 'blue socks and red shoes')
('colour socks and colour shoes', 2)
>>> p.subn( 'colour', 'no colours at all')
('no colours at all', 0)
Empty matches are replaced only when they're not adjacent to a previous match.
::
>>> p = re.compile('x*')
>>> p.sub('-', 'abxd')
'-a-b-d-'
If *replacement* is a string, any backslash escapes in it are processed. That
is, ``\n`` is converted to a single newline character, ``\r`` is converted to a
carriage return, and so forth. Unknown escapes such as ``\j`` are left alone.
Backreferences, such as ``\6``, are replaced with the substring matched by the
corresponding group in the RE. This lets you incorporate portions of the
original text in the resulting replacement string.
This example matches the word ``section`` followed by a string enclosed in
``{``, ``}``, and changes ``section`` to ``subsection``::
>>> p = re.compile('section{ ( [^}]* ) }', re.VERBOSE)
>>> p.sub(r'subsection{\1}','section{First} section{second}')
'subsection{First} subsection{second}'
There's also a syntax for referring to named groups as defined by the
``(?P<name>...)`` syntax. ``\g<name>`` will use the substring matched by the
group named ``name``, and ``\g<number>`` uses the corresponding group number.
``\g<2>`` is therefore equivalent to ``\2``, but isn't ambiguous in a
replacement string such as ``\g<2>0``. (``\20`` would be interpreted as a
reference to group 20, not a reference to group 2 followed by the literal
character ``'0'``.) The following substitutions are all equivalent, but use all
three variations of the replacement string. ::
>>> p = re.compile('section{ (?P<name> [^}]* ) }', re.VERBOSE)
>>> p.sub(r'subsection{\1}','section{First}')
'subsection{First}'
>>> p.sub(r'subsection{\g<1>}','section{First}')
'subsection{First}'
>>> p.sub(r'subsection{\g<name>}','section{First}')
'subsection{First}'
*replacement* can also be a function, which gives you even more control. If
*replacement* is a function, the function is called for every non-overlapping
occurrence of *pattern*. On each call, the function is passed a
:class:`MatchObject` argument for the match and can use this information to
compute the desired replacement string and return it.
In the following example, the replacement function translates decimals into
hexadecimal::
>>> def hexrepl( match ):
... "Return the hex string for a decimal number"
... value = int( match.group() )
... return hex(value)
...
>>> p = re.compile(r'\d+')
>>> p.sub(hexrepl, 'Call 65490 for printing, 49152 for user code.')
'Call 0xffd2 for printing, 0xc000 for user code.'
When using the module-level :func:`re.sub` function, the pattern is passed as
the first argument. The pattern may be a string or a :class:`RegexObject`; if
you need to specify regular expression flags, you must either use a
:class:`RegexObject` as the first parameter, or use embedded modifiers in the
pattern, e.g. ``sub("(?i)b+", "x", "bbbb BBBB")`` returns ``'x x'``.
Common Problems
===============
Regular expressions are a powerful tool for some applications, but in some ways
their behaviour isn't intuitive and at times they don't behave the way you may
expect them to. This section will point out some of the most common pitfalls.
Use String Methods
------------------
Sometimes using the :mod:`re` module is a mistake. If you're matching a fixed
string, or a single character class, and you're not using any :mod:`re` features
such as the :const:`IGNORECASE` flag, then the full power of regular expressions
may not be required. Strings have several methods for performing operations with
fixed strings and they're usually much faster, because the implementation is a
single small C loop that's been optimized for the purpose, instead of the large,
more generalized regular expression engine.
One example might be replacing a single fixed string with another one; for
example, you might replace ``word`` with ``deed``. ``re.sub()`` seems like the
function to use for this, but consider the :meth:`replace` method. Note that
:func:`replace` will also replace ``word`` inside words, turning ``swordfish``
into ``sdeedfish``, but the naive RE ``word`` would have done that, too. (To
avoid performing the substitution on parts of words, the pattern would have to
be ``\bword\b``, in order to require that ``word`` have a word boundary on
either side. This takes the job beyond :meth:`replace`'s abilities.)
Another common task is deleting every occurrence of a single character from a
string or replacing it with another single character. You might do this with
something like ``re.sub('\n', ' ', S)``, but :meth:`translate` is capable of
doing both tasks and will be faster than any regular expression operation can
be.
In short, before turning to the :mod:`re` module, consider whether your problem
can be solved with a faster and simpler string method.
match() versus search()
-----------------------
The :func:`match` function only checks if the RE matches at the beginning of the
string while :func:`search` will scan forward through the string for a match.
It's important to keep this distinction in mind. Remember, :func:`match` will
only report a successful match which will start at 0; if the match wouldn't
start at zero, :func:`match` will *not* report it. ::
Merged revisions 68133-68134,68141-68142,68145-68146,68148-68149,68159-68162,68166,68171-68174,68179,68195-68196,68210,68214-68215,68217-68222 via svnmerge from svn+ssh://pythondev@svn.python.org/python/trunk ........ r68133 | antoine.pitrou | 2009-01-01 16:38:03 +0100 (Thu, 01 Jan 2009) | 1 line fill in actual issue number in tests ........ r68134 | hirokazu.yamamoto | 2009-01-01 16:45:39 +0100 (Thu, 01 Jan 2009) | 2 lines Issue #4797: IOError.filename was not set when _fileio.FileIO failed to open file with `str' filename on Windows. ........ r68141 | benjamin.peterson | 2009-01-01 17:43:12 +0100 (Thu, 01 Jan 2009) | 1 line fix highlighting ........ r68142 | benjamin.peterson | 2009-01-01 18:29:49 +0100 (Thu, 01 Jan 2009) | 2 lines welcome to 2009, Python! ........ r68145 | amaury.forgeotdarc | 2009-01-02 01:03:54 +0100 (Fri, 02 Jan 2009) | 5 lines #4801 _collections module fails to build on cygwin. _PyObject_GC_TRACK is the macro version of PyObject_GC_Track, and according to documentation it should not be used for extension modules. ........ r68146 | ronald.oussoren | 2009-01-02 11:44:46 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue4472: "configure --enable-shared doesn't work on OSX" ........ r68148 | ronald.oussoren | 2009-01-02 11:48:31 +0100 (Fri, 02 Jan 2009) | 2 lines Forgot to add a NEWS item in my previous checkin ........ r68149 | ronald.oussoren | 2009-01-02 11:50:48 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue4780 ........ r68159 | ronald.oussoren | 2009-01-02 15:48:17 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue 1627952 ........ r68160 | ronald.oussoren | 2009-01-02 15:52:09 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue r1737832 ........ r68161 | ronald.oussoren | 2009-01-02 16:00:05 +0100 (Fri, 02 Jan 2009) | 3 lines Fix for issue 1149804 ........ r68162 | ronald.oussoren | 2009-01-02 16:06:00 +0100 (Fri, 02 Jan 2009) | 3 lines Fix for issue 4472 is incompatible with Cygwin, this patch should fix that. ........ r68166 | benjamin.peterson | 2009-01-02 19:26:23 +0100 (Fri, 02 Jan 2009) | 1 line document PyMemberDef ........ r68171 | georg.brandl | 2009-01-02 21:25:14 +0100 (Fri, 02 Jan 2009) | 3 lines #4811: fix markup glitches (mostly remains of the conversion), found by Gabriel Genellina. ........ r68172 | martin.v.loewis | 2009-01-02 21:32:55 +0100 (Fri, 02 Jan 2009) | 2 lines Issue #4075: Use OutputDebugStringW in Py_FatalError. ........ r68173 | martin.v.loewis | 2009-01-02 21:40:14 +0100 (Fri, 02 Jan 2009) | 2 lines Issue #4051: Prevent conflict of UNICODE macros in cPickle. ........ r68174 | benjamin.peterson | 2009-01-02 21:47:27 +0100 (Fri, 02 Jan 2009) | 1 line fix compilation on non-Windows platforms ........ r68179 | raymond.hettinger | 2009-01-02 22:26:45 +0100 (Fri, 02 Jan 2009) | 1 line Issue #4615. Document how to use itertools for de-duping. ........ r68195 | georg.brandl | 2009-01-03 14:45:15 +0100 (Sat, 03 Jan 2009) | 2 lines Remove useless string literal. ........ r68196 | georg.brandl | 2009-01-03 15:29:53 +0100 (Sat, 03 Jan 2009) | 2 lines Fix indentation. ........ r68210 | georg.brandl | 2009-01-03 20:10:12 +0100 (Sat, 03 Jan 2009) | 2 lines Set eol-style correctly for mp_distributing.py. ........ r68214 | georg.brandl | 2009-01-03 20:44:48 +0100 (Sat, 03 Jan 2009) | 2 lines Make indentation consistent. ........ r68215 | georg.brandl | 2009-01-03 21:15:14 +0100 (Sat, 03 Jan 2009) | 2 lines Fix role name. ........ r68217 | georg.brandl | 2009-01-03 21:30:15 +0100 (Sat, 03 Jan 2009) | 2 lines Add rstlint, a little tool to find subtle markup problems and inconsistencies in the Doc sources. ........ r68218 | georg.brandl | 2009-01-03 21:38:59 +0100 (Sat, 03 Jan 2009) | 2 lines Recognize usage of the default role. ........ r68219 | georg.brandl | 2009-01-03 21:47:01 +0100 (Sat, 03 Jan 2009) | 2 lines Fix uses of the default role. ........ r68220 | georg.brandl | 2009-01-03 21:55:06 +0100 (Sat, 03 Jan 2009) | 2 lines Remove trailing whitespace. ........ r68221 | georg.brandl | 2009-01-03 22:04:55 +0100 (Sat, 03 Jan 2009) | 2 lines Remove tabs from the documentation. ........ r68222 | georg.brandl | 2009-01-03 22:11:58 +0100 (Sat, 03 Jan 2009) | 2 lines Disable the line length checker by default. ........
2009-01-03 17:55:17 -04:00
>>> print re.match('super', 'superstition').span()
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(0, 5)
Merged revisions 68133-68134,68141-68142,68145-68146,68148-68149,68159-68162,68166,68171-68174,68179,68195-68196,68210,68214-68215,68217-68222 via svnmerge from svn+ssh://pythondev@svn.python.org/python/trunk ........ r68133 | antoine.pitrou | 2009-01-01 16:38:03 +0100 (Thu, 01 Jan 2009) | 1 line fill in actual issue number in tests ........ r68134 | hirokazu.yamamoto | 2009-01-01 16:45:39 +0100 (Thu, 01 Jan 2009) | 2 lines Issue #4797: IOError.filename was not set when _fileio.FileIO failed to open file with `str' filename on Windows. ........ r68141 | benjamin.peterson | 2009-01-01 17:43:12 +0100 (Thu, 01 Jan 2009) | 1 line fix highlighting ........ r68142 | benjamin.peterson | 2009-01-01 18:29:49 +0100 (Thu, 01 Jan 2009) | 2 lines welcome to 2009, Python! ........ r68145 | amaury.forgeotdarc | 2009-01-02 01:03:54 +0100 (Fri, 02 Jan 2009) | 5 lines #4801 _collections module fails to build on cygwin. _PyObject_GC_TRACK is the macro version of PyObject_GC_Track, and according to documentation it should not be used for extension modules. ........ r68146 | ronald.oussoren | 2009-01-02 11:44:46 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue4472: "configure --enable-shared doesn't work on OSX" ........ r68148 | ronald.oussoren | 2009-01-02 11:48:31 +0100 (Fri, 02 Jan 2009) | 2 lines Forgot to add a NEWS item in my previous checkin ........ r68149 | ronald.oussoren | 2009-01-02 11:50:48 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue4780 ........ r68159 | ronald.oussoren | 2009-01-02 15:48:17 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue 1627952 ........ r68160 | ronald.oussoren | 2009-01-02 15:52:09 +0100 (Fri, 02 Jan 2009) | 2 lines Fix for issue r1737832 ........ r68161 | ronald.oussoren | 2009-01-02 16:00:05 +0100 (Fri, 02 Jan 2009) | 3 lines Fix for issue 1149804 ........ r68162 | ronald.oussoren | 2009-01-02 16:06:00 +0100 (Fri, 02 Jan 2009) | 3 lines Fix for issue 4472 is incompatible with Cygwin, this patch should fix that. ........ r68166 | benjamin.peterson | 2009-01-02 19:26:23 +0100 (Fri, 02 Jan 2009) | 1 line document PyMemberDef ........ r68171 | georg.brandl | 2009-01-02 21:25:14 +0100 (Fri, 02 Jan 2009) | 3 lines #4811: fix markup glitches (mostly remains of the conversion), found by Gabriel Genellina. ........ r68172 | martin.v.loewis | 2009-01-02 21:32:55 +0100 (Fri, 02 Jan 2009) | 2 lines Issue #4075: Use OutputDebugStringW in Py_FatalError. ........ r68173 | martin.v.loewis | 2009-01-02 21:40:14 +0100 (Fri, 02 Jan 2009) | 2 lines Issue #4051: Prevent conflict of UNICODE macros in cPickle. ........ r68174 | benjamin.peterson | 2009-01-02 21:47:27 +0100 (Fri, 02 Jan 2009) | 1 line fix compilation on non-Windows platforms ........ r68179 | raymond.hettinger | 2009-01-02 22:26:45 +0100 (Fri, 02 Jan 2009) | 1 line Issue #4615. Document how to use itertools for de-duping. ........ r68195 | georg.brandl | 2009-01-03 14:45:15 +0100 (Sat, 03 Jan 2009) | 2 lines Remove useless string literal. ........ r68196 | georg.brandl | 2009-01-03 15:29:53 +0100 (Sat, 03 Jan 2009) | 2 lines Fix indentation. ........ r68210 | georg.brandl | 2009-01-03 20:10:12 +0100 (Sat, 03 Jan 2009) | 2 lines Set eol-style correctly for mp_distributing.py. ........ r68214 | georg.brandl | 2009-01-03 20:44:48 +0100 (Sat, 03 Jan 2009) | 2 lines Make indentation consistent. ........ r68215 | georg.brandl | 2009-01-03 21:15:14 +0100 (Sat, 03 Jan 2009) | 2 lines Fix role name. ........ r68217 | georg.brandl | 2009-01-03 21:30:15 +0100 (Sat, 03 Jan 2009) | 2 lines Add rstlint, a little tool to find subtle markup problems and inconsistencies in the Doc sources. ........ r68218 | georg.brandl | 2009-01-03 21:38:59 +0100 (Sat, 03 Jan 2009) | 2 lines Recognize usage of the default role. ........ r68219 | georg.brandl | 2009-01-03 21:47:01 +0100 (Sat, 03 Jan 2009) | 2 lines Fix uses of the default role. ........ r68220 | georg.brandl | 2009-01-03 21:55:06 +0100 (Sat, 03 Jan 2009) | 2 lines Remove trailing whitespace. ........ r68221 | georg.brandl | 2009-01-03 22:04:55 +0100 (Sat, 03 Jan 2009) | 2 lines Remove tabs from the documentation. ........ r68222 | georg.brandl | 2009-01-03 22:11:58 +0100 (Sat, 03 Jan 2009) | 2 lines Disable the line length checker by default. ........
2009-01-03 17:55:17 -04:00
>>> print re.match('super', 'insuperable')
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None
On the other hand, :func:`search` will scan forward through the string,
reporting the first match it finds. ::
>>> print re.search('super', 'superstition').span()
(0, 5)
>>> print re.search('super', 'insuperable').span()
(2, 7)
Sometimes you'll be tempted to keep using :func:`re.match`, and just add ``.*``
to the front of your RE. Resist this temptation and use :func:`re.search`
instead. The regular expression compiler does some analysis of REs in order to
speed up the process of looking for a match. One such analysis figures out what
the first character of a match must be; for example, a pattern starting with
``Crow`` must match starting with a ``'C'``. The analysis lets the engine
quickly scan through the string looking for the starting character, only trying
the full match if a ``'C'`` is found.
Adding ``.*`` defeats this optimization, requiring scanning to the end of the
string and then backtracking to find a match for the rest of the RE. Use
:func:`re.search` instead.
Greedy versus Non-Greedy
------------------------
When repeating a regular expression, as in ``a*``, the resulting action is to
consume as much of the pattern as possible. This fact often bites you when
you're trying to match a pair of balanced delimiters, such as the angle brackets
surrounding an HTML tag. The naive pattern for matching a single HTML tag
doesn't work because of the greedy nature of ``.*``. ::
>>> s = '<html><head><title>Title</title>'
>>> len(s)
32
>>> print re.match('<.*>', s).span()
(0, 32)
>>> print re.match('<.*>', s).group()
<html><head><title>Title</title>
The RE matches the ``'<'`` in ``<html>``, and the ``.*`` consumes the rest of
the string. There's still more left in the RE, though, and the ``>`` can't
match at the end of the string, so the regular expression engine has to
backtrack character by character until it finds a match for the ``>``. The
final match extends from the ``'<'`` in ``<html>`` to the ``'>'`` in
``</title>``, which isn't what you want.
In this case, the solution is to use the non-greedy qualifiers ``*?``, ``+?``,
``??``, or ``{m,n}?``, which match as *little* text as possible. In the above
example, the ``'>'`` is tried immediately after the first ``'<'`` matches, and
when it fails, the engine advances a character at a time, retrying the ``'>'``
at every step. This produces just the right result::
>>> print re.match('<.*?>', s).group()
<html>
(Note that parsing HTML or XML with regular expressions is painful.
Quick-and-dirty patterns will handle common cases, but HTML and XML have special
cases that will break the obvious regular expression; by the time you've written
a regular expression that handles all of the possible cases, the patterns will
be *very* complicated. Use an HTML or XML parser module for such tasks.)
Not Using re.VERBOSE
--------------------
By now you've probably noticed that regular expressions are a very compact
notation, but they're not terribly readable. REs of moderate complexity can
become lengthy collections of backslashes, parentheses, and metacharacters,
making them difficult to read and understand.
For such REs, specifying the ``re.VERBOSE`` flag when compiling the regular
expression can be helpful, because it allows you to format the regular
expression more clearly.
The ``re.VERBOSE`` flag has several effects. Whitespace in the regular
expression that *isn't* inside a character class is ignored. This means that an
expression such as ``dog | cat`` is equivalent to the less readable ``dog|cat``,
but ``[a b]`` will still match the characters ``'a'``, ``'b'``, or a space. In
addition, you can also put comments inside a RE; comments extend from a ``#``
character to the next newline. When used with triple-quoted strings, this
enables REs to be formatted more neatly::
pat = re.compile(r"""
\s* # Skip leading whitespace
(?P<header>[^:]+) # Header name
\s* : # Whitespace, and a colon
(?P<value>.*?) # The header's value -- *? used to
# lose the following trailing whitespace
\s*$ # Trailing whitespace to end-of-line
""", re.VERBOSE)
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This is far more readable than::
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pat = re.compile(r"\s*(?P<header>[^:]+)\s*:(?P<value>.*?)\s*$")
Feedback
========
Regular expressions are a complicated topic. Did this document help you
understand them? Were there parts that were unclear, or Problems you
encountered that weren't covered here? If so, please send suggestions for
improvements to the author.
The most complete book on regular expressions is almost certainly Jeffrey
Friedl's Mastering Regular Expressions, published by O'Reilly. Unfortunately,
it exclusively concentrates on Perl and Java's flavours of regular expressions,
and doesn't contain any Python material at all, so it won't be useful as a
reference for programming in Python. (The first edition covered Python's
now-removed :mod:`regex` module, which won't help you much.) Consider checking
it out from your library.
.. rubric:: Footnotes
.. [#] Introduced in Python 2.2.2.