914 lines
39 KiB
ReStructuredText
914 lines
39 KiB
ReStructuredText
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:mod:`re` --- Regular expression operations
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===========================================
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.. module:: re
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:synopsis: Regular expression operations.
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.. moduleauthor:: Fredrik Lundh <fredrik@pythonware.com>
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.. sectionauthor:: Andrew M. Kuchling <amk@amk.ca>
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This module provides regular expression matching operations similar to
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those found in Perl. Both patterns and strings to be searched can be
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Unicode strings as well as 8-bit strings. The :mod:`re` module is
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always available.
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Regular expressions use the backslash character (``'\'``) to indicate
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special forms or to allow special characters to be used without invoking
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their special meaning. This collides with Python's usage of the same
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character for the same purpose in string literals; for example, to match
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a literal backslash, one might have to write ``'\\\\'`` as the pattern
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string, because the regular expression must be ``\\``, and each
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backslash must be expressed as ``\\`` inside a regular Python string
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literal.
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The solution is to use Python's raw string notation for regular expression
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patterns; backslashes are not handled in any special way in a string literal
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prefixed with ``'r'``. So ``r"\n"`` is a two-character string containing
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``'\'`` and ``'n'``, while ``"\n"`` is a one-character string containing a
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newline. Usually patterns will be expressed in Python code using this raw string
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notation.
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.. seealso::
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Mastering Regular Expressions
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Book on regular expressions by Jeffrey Friedl, published by O'Reilly. The
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second edition of the book no longer covers Python at all, but the first
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edition covered writing good regular expression patterns in great detail.
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.. _re-syntax:
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Regular Expression Syntax
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-------------------------
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A regular expression (or RE) specifies a set of strings that matches it; the
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functions in this module let you check if a particular string matches a given
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regular expression (or if a given regular expression matches a particular
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string, which comes down to the same thing).
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Regular expressions can be concatenated to form new regular expressions; if *A*
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and *B* are both regular expressions, then *AB* is also a regular expression.
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In general, if a string *p* matches *A* and another string *q* matches *B*, the
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string *pq* will match AB. This holds unless *A* or *B* contain low precedence
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operations; boundary conditions between *A* and *B*; or have numbered group
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references. Thus, complex expressions can easily be constructed from simpler
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primitive expressions like the ones described here. For details of the theory
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and implementation of regular expressions, consult the Friedl book referenced
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above, or almost any textbook about compiler construction.
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A brief explanation of the format of regular expressions follows. For further
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information and a gentler presentation, consult the Regular Expression HOWTO,
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accessible from http://www.python.org/doc/howto/.
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Regular expressions can contain both special and ordinary characters. Most
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ordinary characters, like ``'A'``, ``'a'``, or ``'0'``, are the simplest regular
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expressions; they simply match themselves. You can concatenate ordinary
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characters, so ``last`` matches the string ``'last'``. (In the rest of this
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section, we'll write RE's in ``this special style``, usually without quotes, and
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strings to be matched ``'in single quotes'``.)
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Some characters, like ``'|'`` or ``'('``, are special. Special
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characters either stand for classes of ordinary characters, or affect
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how the regular expressions around them are interpreted. Regular
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expression pattern strings may not contain null bytes, but can specify
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the null byte using the ``\number`` notation, e.g., ``'\x00'``.
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The special characters are:
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.. %
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``'.'``
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(Dot.) In the default mode, this matches any character except a newline. If
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the :const:`DOTALL` flag has been specified, this matches any character
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including a newline.
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``'^'``
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(Caret.) Matches the start of the string, and in :const:`MULTILINE` mode also
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matches immediately after each newline.
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``'$'``
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Matches the end of the string or just before the newline at the end of the
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string, and in :const:`MULTILINE` mode also matches before a newline. ``foo``
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matches both 'foo' and 'foobar', while the regular expression ``foo$`` matches
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only 'foo'. More interestingly, searching for ``foo.$`` in ``'foo1\nfoo2\n'``
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matches 'foo2' normally, but 'foo1' in :const:`MULTILINE` mode.
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``'*'``
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Causes the resulting RE to match 0 or more repetitions of the preceding RE, as
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many repetitions as are possible. ``ab*`` will match 'a', 'ab', or 'a' followed
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by any number of 'b's.
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``'+'``
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Causes the resulting RE to match 1 or more repetitions of the preceding RE.
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``ab+`` will match 'a' followed by any non-zero number of 'b's; it will not
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match just 'a'.
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``'?'``
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Causes the resulting RE to match 0 or 1 repetitions of the preceding RE.
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``ab?`` will match either 'a' or 'ab'.
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``*?``, ``+?``, ``??``
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The ``'*'``, ``'+'``, and ``'?'`` qualifiers are all :dfn:`greedy`; they match
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as much text as possible. Sometimes this behaviour isn't desired; if the RE
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``<.*>`` is matched against ``'<H1>title</H1>'``, it will match the entire
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string, and not just ``'<H1>'``. Adding ``'?'`` after the qualifier makes it
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perform the match in :dfn:`non-greedy` or :dfn:`minimal` fashion; as *few*
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characters as possible will be matched. Using ``.*?`` in the previous
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expression will match only ``'<H1>'``.
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``{m}``
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Specifies that exactly *m* copies of the previous RE should be matched; fewer
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matches cause the entire RE not to match. For example, ``a{6}`` will match
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exactly six ``'a'`` characters, but not five.
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``{m,n}``
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Causes the resulting RE to match from *m* to *n* repetitions of the preceding
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RE, attempting to match as many repetitions as possible. For example,
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``a{3,5}`` will match from 3 to 5 ``'a'`` characters. Omitting *m* specifies a
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lower bound of zero, and omitting *n* specifies an infinite upper bound. As an
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example, ``a{4,}b`` will match ``aaaab`` or a thousand ``'a'`` characters
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followed by a ``b``, but not ``aaab``. The comma may not be omitted or the
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modifier would be confused with the previously described form.
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``{m,n}?``
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Causes the resulting RE to match from *m* to *n* repetitions of the preceding
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RE, attempting to match as *few* repetitions as possible. This is the
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non-greedy version of the previous qualifier. For example, on the
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6-character string ``'aaaaaa'``, ``a{3,5}`` will match 5 ``'a'`` characters,
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while ``a{3,5}?`` will only match 3 characters.
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``'\'``
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Either escapes special characters (permitting you to match characters like
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``'*'``, ``'?'``, and so forth), or signals a special sequence; special
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sequences are discussed below.
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If you're not using a raw string to express the pattern, remember that Python
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also uses the backslash as an escape sequence in string literals; if the escape
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sequence isn't recognized by Python's parser, the backslash and subsequent
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character are included in the resulting string. However, if Python would
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recognize the resulting sequence, the backslash should be repeated twice. This
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is complicated and hard to understand, so it's highly recommended that you use
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raw strings for all but the simplest expressions.
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``[]``
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Used to indicate a set of characters. Characters can be listed individually, or
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a range of characters can be indicated by giving two characters and separating
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them by a ``'-'``. Special characters are not active inside sets. For example,
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``[akm$]`` will match any of the characters ``'a'``, ``'k'``,
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``'m'``, or ``'$'``; ``[a-z]`` will match any lowercase letter, and
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``[a-zA-Z0-9]`` matches any letter or digit. Character classes such
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as ``\w`` or ``\S`` (defined below) are also acceptable inside a
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range, although the characters they match depends on whether :const:`LOCALE`
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or :const:`UNICODE` mode is in force. If you want to include a
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``']'`` or a ``'-'`` inside a set, precede it with a backslash, or
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place it as the first character. The pattern ``[]]`` will match
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``']'``, for example.
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You can match the characters not within a range by :dfn:`complementing` the set.
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This is indicated by including a ``'^'`` as the first character of the set;
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``'^'`` elsewhere will simply match the ``'^'`` character. For example,
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``[^5]`` will match any character except ``'5'``, and ``[^^]`` will match any
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character except ``'^'``.
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``'|'``
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``A|B``, where A and B can be arbitrary REs, creates a regular expression that
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will match either A or B. An arbitrary number of REs can be separated by the
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``'|'`` in this way. This can be used inside groups (see below) as well. As
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the target string is scanned, REs separated by ``'|'`` are tried from left to
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right. When one pattern completely matches, that branch is accepted. This means
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that once ``A`` matches, ``B`` will not be tested further, even if it would
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produce a longer overall match. In other words, the ``'|'`` operator is never
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greedy. To match a literal ``'|'``, use ``\|``, or enclose it inside a
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character class, as in ``[|]``.
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``(...)``
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Matches whatever regular expression is inside the parentheses, and indicates the
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start and end of a group; the contents of a group can be retrieved after a match
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has been performed, and can be matched later in the string with the ``\number``
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special sequence, described below. To match the literals ``'('`` or ``')'``,
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use ``\(`` or ``\)``, or enclose them inside a character class: ``[(] [)]``.
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``(?...)``
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This is an extension notation (a ``'?'`` following a ``'('`` is not meaningful
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otherwise). The first character after the ``'?'`` determines what the meaning
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and further syntax of the construct is. Extensions usually do not create a new
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group; ``(?P<name>...)`` is the only exception to this rule. Following are the
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currently supported extensions.
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``(?iLmsux)``
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(One or more letters from the set ``'i'``, ``'L'``, ``'m'``, ``'s'``,
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``'u'``, ``'x'``.) The group matches the empty string; the letters
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set the corresponding flags: :const:`re.I` (ignore case),
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:const:`re.L` (locale dependent), :const:`re.M` (multi-line),
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:const:`re.S` (dot matches all), :const:`re.U` (Unicode dependent),
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and :const:`re.X` (verbose), for the entire regular expression. (The
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flags are described in :ref:`contents-of-module-re`.) This
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is useful if you wish to include the flags as part of the regular
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expression, instead of passing a *flag* argument to the
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:func:`compile` function.
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Note that the ``(?x)`` flag changes how the expression is parsed. It should be
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used first in the expression string, or after one or more whitespace characters.
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If there are non-whitespace characters before the flag, the results are
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undefined.
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``(?:...)``
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A non-grouping version of regular parentheses. Matches whatever regular
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expression is inside the parentheses, but the substring matched by the group
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*cannot* be retrieved after performing a match or referenced later in the
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pattern.
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``(?P<name>...)``
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Similar to regular parentheses, but the substring matched by the group is
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accessible via the symbolic group name *name*. Group names must be valid Python
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identifiers, and each group name must be defined only once within a regular
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expression. A symbolic group is also a numbered group, just as if the group
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were not named. So the group named 'id' in the example below can also be
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referenced as the numbered group 1.
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For example, if the pattern is ``(?P<id>[a-zA-Z_]\w*)``, the group can be
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referenced by its name in arguments to methods of match objects, such as
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``m.group('id')`` or ``m.end('id')``, and also by name in pattern text (for
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example, ``(?P=id)``) and replacement text (such as ``\g<id>``).
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``(?P=name)``
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Matches whatever text was matched by the earlier group named *name*.
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``(?#...)``
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A comment; the contents of the parentheses are simply ignored.
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``(?=...)``
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Matches if ``...`` matches next, but doesn't consume any of the string. This is
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called a lookahead assertion. For example, ``Isaac (?=Asimov)`` will match
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``'Isaac '`` only if it's followed by ``'Asimov'``.
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``(?!...)``
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Matches if ``...`` doesn't match next. This is a negative lookahead assertion.
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For example, ``Isaac (?!Asimov)`` will match ``'Isaac '`` only if it's *not*
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followed by ``'Asimov'``.
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``(?<=...)``
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Matches if the current position in the string is preceded by a match for ``...``
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that ends at the current position. This is called a :dfn:`positive lookbehind
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assertion`. ``(?<=abc)def`` will find a match in ``abcdef``, since the
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lookbehind will back up 3 characters and check if the contained pattern matches.
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The contained pattern must only match strings of some fixed length, meaning that
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``abc`` or ``a|b`` are allowed, but ``a*`` and ``a{3,4}`` are not. Note that
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patterns which start with positive lookbehind assertions will never match at the
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beginning of the string being searched; you will most likely want to use the
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:func:`search` function rather than the :func:`match` function::
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>>> import re
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>>> m = re.search('(?<=abc)def', 'abcdef')
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>>> m.group(0)
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'def'
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This example looks for a word following a hyphen::
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>>> m = re.search('(?<=-)\w+', 'spam-egg')
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>>> m.group(0)
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'egg'
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``(?<!...)``
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Matches if the current position in the string is not preceded by a match for
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``...``. This is called a :dfn:`negative lookbehind assertion`. Similar to
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positive lookbehind assertions, the contained pattern must only match strings of
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some fixed length. Patterns which start with negative lookbehind assertions may
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match at the beginning of the string being searched.
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``(?(id/name)yes-pattern|no-pattern)``
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Will try to match with ``yes-pattern`` if the group with given *id* or *name*
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exists, and with ``no-pattern`` if it doesn't. ``no-pattern`` is optional and
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can be omitted. For example, ``(<)?(\w+@\w+(?:\.\w+)+)(?(1)>)`` is a poor email
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matching pattern, which will match with ``'<user@host.com>'`` as well as
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``'user@host.com'``, but not with ``'<user@host.com'``.
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The special sequences consist of ``'\'`` and a character from the list below.
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If the ordinary character is not on the list, then the resulting RE will match
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the second character. For example, ``\$`` matches the character ``'$'``.
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.. %
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``\number``
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Matches the contents of the group of the same number. Groups are numbered
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starting from 1. For example, ``(.+) \1`` matches ``'the the'`` or ``'55 55'``,
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but not ``'the end'`` (note the space after the group). This special sequence
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can only be used to match one of the first 99 groups. If the first digit of
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*number* is 0, or *number* is 3 octal digits long, it will not be interpreted as
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a group match, but as the character with octal value *number*. Inside the
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``'['`` and ``']'`` of a character class, all numeric escapes are treated as
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characters.
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``\A``
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Matches only at the start of the string.
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``\b``
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Matches the empty string, but only at the beginning or end of a word. A word is
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defined as a sequence of alphanumeric or underscore characters, so the end of a
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word is indicated by whitespace or a non-alphanumeric, non-underscore character.
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Note that ``\b`` is defined as the boundary between ``\w`` and ``\ W``, so the
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precise set of characters deemed to be alphanumeric depends on the values of the
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``UNICODE`` and ``LOCALE`` flags. Inside a character range, ``\b`` represents
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the backspace character, for compatibility with Python's string literals.
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``\B``
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Matches the empty string, but only when it is *not* at the beginning or end of a
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word. This is just the opposite of ``\b``, so is also subject to the settings
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of ``LOCALE`` and ``UNICODE``.
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``\d``
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When the :const:`UNICODE` flag is not specified, matches any decimal digit; this
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is equivalent to the set ``[0-9]``. With :const:`UNICODE`, it will match
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whatever is classified as a digit in the Unicode character properties database.
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``\D``
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When the :const:`UNICODE` flag is not specified, matches any non-digit
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character; this is equivalent to the set ``[^0-9]``. With :const:`UNICODE`, it
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will match anything other than character marked as digits in the Unicode
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character properties database.
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``\s``
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When the :const:`LOCALE` and :const:`UNICODE` flags are not specified, matches
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any whitespace character; this is equivalent to the set ``[ \t\n\r\f\v]``. With
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:const:`LOCALE`, it will match this set plus whatever characters are defined as
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space for the current locale. If :const:`UNICODE` is set, this will match the
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characters ``[ \t\n\r\f\v]`` plus whatever is classified as space in the Unicode
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character properties database.
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``\S``
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When the :const:`LOCALE` and :const:`UNICODE` flags are not specified, matches
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any non-whitespace character; this is equivalent to the set ``[^ \t\n\r\f\v]``
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With :const:`LOCALE`, it will match any character not in this set, and not
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defined as space in the current locale. If :const:`UNICODE` is set, this will
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match anything other than ``[ \t\n\r\f\v]`` and characters marked as space in
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the Unicode character properties database.
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``\w``
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When the :const:`LOCALE` and :const:`UNICODE` flags are not specified, matches
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any alphanumeric character and the underscore; this is equivalent to the set
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``[a-zA-Z0-9_]``. With :const:`LOCALE`, it will match the set ``[0-9_]`` plus
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whatever characters are defined as alphanumeric for the current locale. If
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:const:`UNICODE` is set, this will match the characters ``[0-9_]`` plus whatever
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is classified as alphanumeric in the Unicode character properties database.
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``\W``
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When the :const:`LOCALE` and :const:`UNICODE` flags are not specified, matches
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any non-alphanumeric character; this is equivalent to the set ``[^a-zA-Z0-9_]``.
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With :const:`LOCALE`, it will match any character not in the set ``[0-9_]``, and
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not defined as alphanumeric for the current locale. If :const:`UNICODE` is set,
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this will match anything other than ``[0-9_]`` and characters marked as
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alphanumeric in the Unicode character properties database.
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``\Z``
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Matches only at the end of the string.
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Most of the standard escapes supported by Python string literals are also
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accepted by the regular expression parser::
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\a \b \f \n
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\r \t \v \x
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\\
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Octal escapes are included in a limited form: If the first digit is a 0, or if
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there are three octal digits, it is considered an octal escape. Otherwise, it is
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a group reference. As for string literals, octal escapes are always at most
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three digits in length.
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.. % Note the lack of a period in the section title; it causes problems
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.. % with readers of the GNU info version. See http://www.python.org/sf/581414.
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.. _matching-searching:
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Matching vs Searching
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---------------------
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.. sectionauthor:: Fred L. Drake, Jr. <fdrake@acm.org>
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Python offers two different primitive operations based on regular expressions:
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**match** checks for a match only at the beginning of the string, while
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**search** checks for a match anywhere in the string (this is what Perl does
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by default).
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Note that match may differ from search even when using a regular expression
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beginning with ``'^'``: ``'^'`` matches only at the start of the string, or in
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:const:`MULTILINE` mode also immediately following a newline. The "match"
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operation succeeds only if the pattern matches at the start of the string
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regardless of mode, or at the starting position given by the optional *pos*
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argument regardless of whether a newline precedes it.
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.. % Examples from Tim Peters:
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::
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re.compile("a").match("ba", 1) # succeeds
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re.compile("^a").search("ba", 1) # fails; 'a' not at start
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re.compile("^a").search("\na", 1) # fails; 'a' not at start
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re.compile("^a", re.M).search("\na", 1) # succeeds
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re.compile("^a", re.M).search("ba", 1) # fails; no preceding \n
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.. _contents-of-module-re:
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Module Contents
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---------------
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The module defines several functions, constants, and an exception. Some of the
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functions are simplified versions of the full featured methods for compiled
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regular expressions. Most non-trivial applications always use the compiled
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form.
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.. function:: compile(pattern[, flags])
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Compile a regular expression pattern into a regular expression object, which can
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be used for matching using its :func:`match` and :func:`search` methods,
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described below.
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The expression's behaviour can be modified by specifying a *flags* value.
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Values can be any of the following variables, combined using bitwise OR (the
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``|`` operator).
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The sequence ::
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prog = re.compile(pat)
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result = prog.match(str)
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is equivalent to ::
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result = re.match(pat, str)
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but the version using :func:`compile` is more efficient when the expression will
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be used several times in a single program.
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.. % (The compiled version of the last pattern passed to
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.. % \function{re.match()} or \function{re.search()} is cached, so
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.. % programs that use only a single regular expression at a time needn't
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.. % worry about compiling regular expressions.)
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.. data:: I
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IGNORECASE
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Perform case-insensitive matching; expressions like ``[A-Z]`` will match
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lowercase letters, too. This is not affected by the current locale.
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.. data:: L
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LOCALE
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Make ``\w``, ``\W``, ``\b``, ``\B``, ``\s`` and ``\S`` dependent on the current
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locale.
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.. data:: M
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MULTILINE
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When specified, the pattern character ``'^'`` matches at the beginning of the
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string and at the beginning of each line (immediately following each newline);
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and the pattern character ``'$'`` matches at the end of the string and at the
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end of each line (immediately preceding each newline). By default, ``'^'``
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matches only at the beginning of the string, and ``'$'`` only at the end of the
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string and immediately before the newline (if any) at the end of the string.
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.. data:: S
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DOTALL
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Make the ``'.'`` special character match any character at all, including a
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newline; without this flag, ``'.'`` will match anything *except* a newline.
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.. data:: U
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UNICODE
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Make ``\w``, ``\W``, ``\b``, ``\B``, ``\d``, ``\D``, ``\s`` and ``\S`` dependent
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on the Unicode character properties database.
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.. data:: X
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VERBOSE
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This flag allows you to write regular expressions that look nicer. Whitespace
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within the pattern is ignored, except when in a character class or preceded by
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an unescaped backslash, and, when a line contains a ``'#'`` neither in a
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character class or preceded by an unescaped backslash, all characters from the
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leftmost such ``'#'`` through the end of the line are ignored.
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This means that the two following regular expression objects are equal::
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re.compile(r""" [a-z]+ # some letters
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\.\. # two dots
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[a-z]* # perhaps more letters""")
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re.compile(r"[a-z]+\.\.[a-z]*")
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.. function:: search(pattern, string[, flags])
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Scan through *string* looking for a location where the regular expression
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*pattern* produces a match, and return a corresponding :class:`MatchObject`
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instance. Return ``None`` if no position in the string matches the pattern; note
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that this is different from finding a zero-length match at some point in the
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string.
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.. function:: match(pattern, string[, flags])
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If zero or more characters at the beginning of *string* match the regular
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expression *pattern*, return a corresponding :class:`MatchObject` instance.
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Return ``None`` if the string does not match the pattern; note that this is
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different from a zero-length match.
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.. note::
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If you want to locate a match anywhere in *string*, use :meth:`search` instead.
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.. function:: split(pattern, string[, maxsplit=0])
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Split *string* by the occurrences of *pattern*. If capturing parentheses are
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used in *pattern*, then the text of all groups in the pattern are also returned
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as part of the resulting list. If *maxsplit* is nonzero, at most *maxsplit*
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splits occur, and the remainder of the string is returned as the final element
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of the list. (Incompatibility note: in the original Python 1.5 release,
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*maxsplit* was ignored. This has been fixed in later releases.) ::
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>>> re.split('\W+', 'Words, words, words.')
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['Words', 'words', 'words', '']
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>>> re.split('(\W+)', 'Words, words, words.')
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['Words', ', ', 'words', ', ', 'words', '.', '']
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>>> re.split('\W+', 'Words, words, words.', 1)
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['Words', 'words, words.']
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.. function:: findall(pattern, string[, flags])
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Return a list of all non-overlapping matches of *pattern* in *string*. If one
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or more groups are present in the pattern, return a list of groups; this will be
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a list of tuples if the pattern has more than one group. Empty matches are
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included in the result unless they touch the beginning of another match.
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.. function:: finditer(pattern, string[, flags])
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Return an iterator over all non-overlapping matches for the RE *pattern* in
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*string*. For each match, the iterator returns a match object. Empty matches
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are included in the result unless they touch the beginning of another match.
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.. function:: sub(pattern, repl, string[, count])
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Return the string obtained by replacing the leftmost non-overlapping occurrences
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of *pattern* in *string* by the replacement *repl*. If the pattern isn't found,
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*string* is returned unchanged. *repl* can be a string or a function; if it is
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a string, any backslash escapes in it are processed. That is, ``\n`` is
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converted to a single newline character, ``\r`` is converted to a linefeed, and
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so forth. Unknown escapes such as ``\j`` are left alone. Backreferences, such
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as ``\6``, are replaced with the substring matched by group 6 in the pattern.
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For example::
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>>> re.sub(r'def\s+([a-zA-Z_][a-zA-Z_0-9]*)\s*\(\s*\):',
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... r'static PyObject*\npy_\1(void)\n{',
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... 'def myfunc():')
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'static PyObject*\npy_myfunc(void)\n{'
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If *repl* is a function, it is called for every non-overlapping occurrence of
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*pattern*. The function takes a single match object argument, and returns the
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replacement string. For example::
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>>> def dashrepl(matchobj):
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... if matchobj.group(0) == '-': return ' '
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... else: return '-'
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>>> re.sub('-{1,2}', dashrepl, 'pro----gram-files')
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'pro--gram files'
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The pattern may be a string or an RE object; if you need to specify regular
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expression flags, you must use a RE object, or use embedded modifiers in a
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pattern; for example, ``sub("(?i)b+", "x", "bbbb BBBB")`` returns ``'x x'``.
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The optional argument *count* is the maximum number of pattern occurrences to be
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replaced; *count* must be a non-negative integer. If omitted or zero, all
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occurrences will be replaced. Empty matches for the pattern are replaced only
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when not adjacent to a previous match, so ``sub('x*', '-', 'abc')`` returns
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``'-a-b-c-'``.
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In addition to character escapes and backreferences as described above,
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``\g<name>`` will use the substring matched by the group named ``name``, as
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defined by the ``(?P<name>...)`` syntax. ``\g<number>`` uses the corresponding
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group number; ``\g<2>`` is therefore equivalent to ``\2``, but isn't ambiguous
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in a replacement such as ``\g<2>0``. ``\20`` would be interpreted as a
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reference to group 20, not a reference to group 2 followed by the literal
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character ``'0'``. The backreference ``\g<0>`` substitutes in the entire
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substring matched by the RE.
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.. function:: subn(pattern, repl, string[, count])
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Perform the same operation as :func:`sub`, but return a tuple ``(new_string,
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number_of_subs_made)``.
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.. function:: escape(string)
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Return *string* with all non-alphanumerics backslashed; this is useful if you
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want to match an arbitrary literal string that may have regular expression
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metacharacters in it.
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.. exception:: error
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Exception raised when a string passed to one of the functions here is not a
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valid regular expression (for example, it might contain unmatched parentheses)
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or when some other error occurs during compilation or matching. It is never an
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error if a string contains no match for a pattern.
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.. _re-objects:
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Regular Expression Objects
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--------------------------
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Compiled regular expression objects support the following methods and
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attributes:
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.. method:: RegexObject.match(string[, pos[, endpos]])
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If zero or more characters at the beginning of *string* match this regular
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expression, return a corresponding :class:`MatchObject` instance. Return
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``None`` if the string does not match the pattern; note that this is different
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from a zero-length match.
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.. note::
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If you want to locate a match anywhere in *string*, use :meth:`search` instead.
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The optional second parameter *pos* gives an index in the string where the
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search is to start; it defaults to ``0``. This is not completely equivalent to
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slicing the string; the ``'^'`` pattern character matches at the real beginning
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of the string and at positions just after a newline, but not necessarily at the
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index where the search is to start.
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The optional parameter *endpos* limits how far the string will be searched; it
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will be as if the string is *endpos* characters long, so only the characters
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from *pos* to ``endpos - 1`` will be searched for a match. If *endpos* is less
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than *pos*, no match will be found, otherwise, if *rx* is a compiled regular
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expression object, ``rx.match(string, 0, 50)`` is equivalent to
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``rx.match(string[:50], 0)``.
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.. method:: RegexObject.search(string[, pos[, endpos]])
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Scan through *string* looking for a location where this regular expression
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produces a match, and return a corresponding :class:`MatchObject` instance.
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Return ``None`` if no position in the string matches the pattern; note that this
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is different from finding a zero-length match at some point in the string.
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The optional *pos* and *endpos* parameters have the same meaning as for the
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:meth:`match` method.
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.. method:: RegexObject.split(string[, maxsplit=0])
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Identical to the :func:`split` function, using the compiled pattern.
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.. method:: RegexObject.findall(string[, pos[, endpos]])
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Identical to the :func:`findall` function, using the compiled pattern.
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.. method:: RegexObject.finditer(string[, pos[, endpos]])
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Identical to the :func:`finditer` function, using the compiled pattern.
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.. method:: RegexObject.sub(repl, string[, count=0])
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Identical to the :func:`sub` function, using the compiled pattern.
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.. method:: RegexObject.subn(repl, string[, count=0])
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Identical to the :func:`subn` function, using the compiled pattern.
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.. attribute:: RegexObject.flags
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The flags argument used when the RE object was compiled, or ``0`` if no flags
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were provided.
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.. attribute:: RegexObject.groupindex
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A dictionary mapping any symbolic group names defined by ``(?P<id>)`` to group
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numbers. The dictionary is empty if no symbolic groups were used in the
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pattern.
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.. attribute:: RegexObject.pattern
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The pattern string from which the RE object was compiled.
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.. _match-objects:
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Match Objects
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-------------
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:class:`MatchObject` instances support the following methods and attributes:
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.. method:: MatchObject.expand(template)
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Return the string obtained by doing backslash substitution on the template
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string *template*, as done by the :meth:`sub` method. Escapes such as ``\n`` are
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converted to the appropriate characters, and numeric backreferences (``\1``,
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``\2``) and named backreferences (``\g<1>``, ``\g<name>``) are replaced by the
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contents of the corresponding group.
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.. method:: MatchObject.group([group1, ...])
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Returns one or more subgroups of the match. If there is a single argument, the
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result is a single string; if there are multiple arguments, the result is a
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tuple with one item per argument. Without arguments, *group1* defaults to zero
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(the whole match is returned). If a *groupN* argument is zero, the corresponding
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return value is the entire matching string; if it is in the inclusive range
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[1..99], it is the string matching the corresponding parenthesized group. If a
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group number is negative or larger than the number of groups defined in the
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pattern, an :exc:`IndexError` exception is raised. If a group is contained in a
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part of the pattern that did not match, the corresponding result is ``None``.
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If a group is contained in a part of the pattern that matched multiple times,
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the last match is returned.
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If the regular expression uses the ``(?P<name>...)`` syntax, the *groupN*
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arguments may also be strings identifying groups by their group name. If a
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string argument is not used as a group name in the pattern, an :exc:`IndexError`
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exception is raised.
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A moderately complicated example::
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m = re.match(r"(?P<int>\d+)\.(\d*)", '3.14')
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After performing this match, ``m.group(1)`` is ``'3'``, as is
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``m.group('int')``, and ``m.group(2)`` is ``'14'``.
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.. method:: MatchObject.groups([default])
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Return a tuple containing all the subgroups of the match, from 1 up to however
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many groups are in the pattern. The *default* argument is used for groups that
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did not participate in the match; it defaults to ``None``. (Incompatibility
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note: in the original Python 1.5 release, if the tuple was one element long, a
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string would be returned instead. In later versions (from 1.5.1 on), a
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singleton tuple is returned in such cases.)
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.. method:: MatchObject.groupdict([default])
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Return a dictionary containing all the *named* subgroups of the match, keyed by
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the subgroup name. The *default* argument is used for groups that did not
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participate in the match; it defaults to ``None``.
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.. method:: MatchObject.start([group])
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MatchObject.end([group])
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Return the indices of the start and end of the substring matched by *group*;
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*group* defaults to zero (meaning the whole matched substring). Return ``-1`` if
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*group* exists but did not contribute to the match. For a match object *m*, and
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a group *g* that did contribute to the match, the substring matched by group *g*
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(equivalent to ``m.group(g)``) is ::
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m.string[m.start(g):m.end(g)]
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Note that ``m.start(group)`` will equal ``m.end(group)`` if *group* matched a
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null string. For example, after ``m = re.search('b(c?)', 'cba')``,
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``m.start(0)`` is 1, ``m.end(0)`` is 2, ``m.start(1)`` and ``m.end(1)`` are both
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2, and ``m.start(2)`` raises an :exc:`IndexError` exception.
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.. method:: MatchObject.span([group])
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For :class:`MatchObject` *m*, return the 2-tuple ``(m.start(group),
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m.end(group))``. Note that if *group* did not contribute to the match, this is
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``(-1, -1)``. Again, *group* defaults to zero.
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.. attribute:: MatchObject.pos
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The value of *pos* which was passed to the :func:`search` or :func:`match`
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method of the :class:`RegexObject`. This is the index into the string at which
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the RE engine started looking for a match.
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.. attribute:: MatchObject.endpos
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The value of *endpos* which was passed to the :func:`search` or :func:`match`
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method of the :class:`RegexObject`. This is the index into the string beyond
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which the RE engine will not go.
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.. attribute:: MatchObject.lastindex
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The integer index of the last matched capturing group, or ``None`` if no group
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was matched at all. For example, the expressions ``(a)b``, ``((a)(b))``, and
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``((ab))`` will have ``lastindex == 1`` if applied to the string ``'ab'``, while
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the expression ``(a)(b)`` will have ``lastindex == 2``, if applied to the same
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string.
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.. attribute:: MatchObject.lastgroup
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The name of the last matched capturing group, or ``None`` if the group didn't
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have a name, or if no group was matched at all.
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.. attribute:: MatchObject.re
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The regular expression object whose :meth:`match` or :meth:`search` method
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produced this :class:`MatchObject` instance.
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.. attribute:: MatchObject.string
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The string passed to :func:`match` or :func:`search`.
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Examples
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--------
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**Simulating scanf()**
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.. index:: single: scanf()
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Python does not currently have an equivalent to :cfunc:`scanf`. Regular
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expressions are generally more powerful, though also more verbose, than
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:cfunc:`scanf` format strings. The table below offers some more-or-less
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equivalent mappings between :cfunc:`scanf` format tokens and regular
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expressions.
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+--------------------------------+---------------------------------------------+
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| :cfunc:`scanf` Token | Regular Expression |
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+================================+=============================================+
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| ``%c`` | ``.`` |
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+--------------------------------+---------------------------------------------+
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| ``%5c`` | ``.{5}`` |
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+--------------------------------+---------------------------------------------+
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| ``%d`` | ``[-+]?\d+`` |
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+--------------------------------+---------------------------------------------+
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| ``%e``, ``%E``, ``%f``, ``%g`` | ``[-+]?(\d+(\.\d*)?|\.\d+)([eE][-+]?\d+)?`` |
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+--------------------------------+---------------------------------------------+
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| ``%i`` | ``[-+]?(0[xX][\dA-Fa-f]+|0[0-7]*|\d+)`` |
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+--------------------------------+---------------------------------------------+
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| ``%o`` | ``0[0-7]*`` |
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+--------------------------------+---------------------------------------------+
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| ``%s`` | ``\S+`` |
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+--------------------------------+---------------------------------------------+
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| ``%u`` | ``\d+`` |
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+--------------------------------+---------------------------------------------+
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| ``%x``, ``%X`` | ``0[xX][\dA-Fa-f]+`` |
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+--------------------------------+---------------------------------------------+
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To extract the filename and numbers from a string like ::
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/usr/sbin/sendmail - 0 errors, 4 warnings
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you would use a :cfunc:`scanf` format like ::
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%s - %d errors, %d warnings
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The equivalent regular expression would be ::
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(\S+) - (\d+) errors, (\d+) warnings
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**Avoiding recursion**
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If you create regular expressions that require the engine to perform a lot of
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recursion, you may encounter a :exc:`RuntimeError` exception with the message
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``maximum recursion limit`` exceeded. For example, ::
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>>> import re
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>>> s = 'Begin ' + 1000*'a very long string ' + 'end'
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>>> re.match('Begin (\w| )*? end', s).end()
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Traceback (most recent call last):
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File "<stdin>", line 1, in ?
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File "/usr/local/lib/python2.5/re.py", line 132, in match
|
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return _compile(pattern, flags).match(string)
|
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RuntimeError: maximum recursion limit exceeded
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You can often restructure your regular expression to avoid recursion.
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Starting with Python 2.3, simple uses of the ``*?`` pattern are special-cased to
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avoid recursion. Thus, the above regular expression can avoid recursion by
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being recast as ``Begin [a-zA-Z0-9_ ]*?end``. As a further benefit, such
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regular expressions will run faster than their recursive equivalents.
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|