1692 lines
67 KiB
ReStructuredText
1692 lines
67 KiB
ReStructuredText
: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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**Source code:** :source:`Lib/re.py`
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--------------
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This module provides regular expression matching operations similar to
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those found in Perl.
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Both patterns and strings to be searched can be Unicode strings (:class:`str`)
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as well as 8-bit strings (:class:`bytes`).
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However, Unicode strings and 8-bit strings cannot be mixed:
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that is, you cannot match a Unicode string with a byte pattern or
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vice-versa; similarly, when asking for a substitution, the replacement
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string must be of the same type as both the pattern and the search string.
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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. Also, please note that any invalid escape sequences in Python's
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usage of the backslash in string literals now generate a :exc:`DeprecationWarning`
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and in the future this will become a :exc:`SyntaxError`. This behaviour
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will happen even if it is a valid escape sequence for a regular expression.
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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
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string notation.
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It is important to note that most regular expression operations are available as
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module-level functions and methods on
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:ref:`compiled regular expressions <re-objects>`. The functions are shortcuts
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that don't require you to compile a regex object first, but miss some
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fine-tuning parameters.
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.. seealso::
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The third-party `regex <https://pypi.org/project/regex/>`_ module,
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which has an API compatible with the standard library :mod:`re` module,
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but offers additional functionality and a more thorough Unicode support.
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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 [Frie09]_,
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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 :ref:`regex-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.
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Repetition qualifiers (``*``, ``+``, ``?``, ``{m,n}``, etc) cannot be
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directly nested. This avoids ambiguity with the non-greedy modifier suffix
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``?``, and with other modifiers in other implementations. To apply a second
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repetition to an inner repetition, parentheses may be used. For example,
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the expression ``(?:a{6})*`` matches any multiple of six ``'a'`` characters.
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The special characters are:
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.. index:: single: . (dot); in regular expressions
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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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.. index:: single: ^ (caret); in regular expressions
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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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.. index:: single: $ (dollar); in regular expressions
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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.$`` in ``'foo1\nfoo2\n'``
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matches 'foo2' normally, but 'foo1' in :const:`MULTILINE` mode; searching for
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a single ``$`` in ``'foo\n'`` will find two (empty) matches: one just before
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the newline, and one at the end of the string.
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.. index:: single: * (asterisk); in regular expressions
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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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.. index:: single: + (plus); in regular expressions
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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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.. index:: single: ? (question mark); in regular expressions
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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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.. index::
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single: *?; in regular expressions
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single: +?; in regular expressions
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single: ??; in regular expressions
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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 ``'<a> b <c>'``, it will match the entire
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string, and not just ``'<a>'``. 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 the RE ``<.*?>`` will match
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only ``'<a>'``.
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.. index::
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single: {} (curly brackets); in regular expressions
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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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.. index:: single: \ (backslash); in regular expressions
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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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.. index::
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single: [] (square brackets); in regular expressions
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``[]``
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Used to indicate a set of characters. In a set:
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* Characters can be listed individually, e.g. ``[amk]`` will match ``'a'``,
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``'m'``, or ``'k'``.
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.. index:: single: - (minus); in regular expressions
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* Ranges of characters can be indicated by giving two characters and separating
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them by a ``'-'``, for example ``[a-z]`` will match any lowercase ASCII letter,
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``[0-5][0-9]`` will match all the two-digits numbers from ``00`` to ``59``, and
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``[0-9A-Fa-f]`` will match any hexadecimal digit. If ``-`` is escaped (e.g.
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``[a\-z]``) or if it's placed as the first or last character
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(e.g. ``[-a]`` or ``[a-]``), it will match a literal ``'-'``.
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* Special characters lose their special meaning inside sets. For example,
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``[(+*)]`` will match any of the literal characters ``'('``, ``'+'``,
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``'*'``, or ``')'``.
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.. index:: single: \ (backslash); in regular expressions
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* Character classes such as ``\w`` or ``\S`` (defined below) are also accepted
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inside a set, although the characters they match depends on whether
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:const:`ASCII` or :const:`LOCALE` mode is in force.
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.. index:: single: ^ (caret); in regular expressions
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* Characters that are not within a range can be matched by :dfn:`complementing`
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the set. If the first character of the set is ``'^'``, all the characters
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that are *not* in the set will be matched. For example, ``[^5]`` will match
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any character except ``'5'``, and ``[^^]`` will match any character except
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``'^'``. ``^`` has no special meaning if it's not the first character in
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the set.
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* To match a literal ``']'`` inside a set, precede it with a backslash, or
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place it at the beginning of the set. For example, both ``[()[\]{}]`` and
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``[]()[{}]`` will both match a parenthesis.
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.. .. index:: single: --; in regular expressions
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.. .. index:: single: &&; in regular expressions
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.. .. index:: single: ~~; in regular expressions
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.. .. index:: single: ||; in regular expressions
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* Support of nested sets and set operations as in `Unicode Technical
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Standard #18`_ might be added in the future. This would change the
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syntax, so to facilitate this change a :exc:`FutureWarning` will be raised
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in ambiguous cases for the time being.
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That includes sets starting with a literal ``'['`` or containing literal
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character sequences ``'--'``, ``'&&'``, ``'~~'``, and ``'||'``. To
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avoid a warning escape them with a backslash.
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.. _Unicode Technical Standard #18: https://unicode.org/reports/tr18/
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.. versionchanged:: 3.7
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:exc:`FutureWarning` is raised if a character set contains constructs
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that will change semantically in the future.
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.. index:: single: | (vertical bar); in regular expressions
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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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.. index::
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single: () (parentheses); in regular expressions
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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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.. index:: single: (?; in regular expressions
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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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``(?aiLmsux)``
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(One or more letters from the set ``'a'``, ``'i'``, ``'L'``, ``'m'``,
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``'s'``, ``'u'``, ``'x'``.) The group matches the empty string; the
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letters set the corresponding flags: :const:`re.A` (ASCII-only matching),
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:const:`re.I` (ignore case), :const:`re.L` (locale dependent),
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:const:`re.M` (multi-line), :const:`re.S` (dot matches all),
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:const:`re.U` (Unicode matching), and :const:`re.X` (verbose),
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for the entire regular expression.
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(The flags are described in :ref:`contents-of-module-re`.)
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This is useful if you wish to include the flags as part of the
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regular expression, instead of passing a *flag* argument to the
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:func:`re.compile` function. Flags should be used first in the
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expression string.
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.. index:: single: (?:; in regular expressions
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``(?:...)``
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A non-capturing 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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``(?aiLmsux-imsx:...)``
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(Zero or more letters from the set ``'a'``, ``'i'``, ``'L'``, ``'m'``,
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``'s'``, ``'u'``, ``'x'``, optionally followed by ``'-'`` followed by
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one or more letters from the ``'i'``, ``'m'``, ``'s'``, ``'x'``.)
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The letters set or remove the corresponding flags:
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:const:`re.A` (ASCII-only matching), :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 matching),
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and :const:`re.X` (verbose), for the part of the expression.
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(The flags are described in :ref:`contents-of-module-re`.)
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The letters ``'a'``, ``'L'`` and ``'u'`` are mutually exclusive when used
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as inline flags, so they can't be combined or follow ``'-'``. Instead,
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when one of them appears in an inline group, it overrides the matching mode
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in the enclosing group. In Unicode patterns ``(?a:...)`` switches to
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ASCII-only matching, and ``(?u:...)`` switches to Unicode matching
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(default). In byte pattern ``(?L:...)`` switches to locale depending
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matching, and ``(?a:...)`` switches to ASCII-only matching (default).
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This override is only in effect for the narrow inline group, and the
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original matching mode is restored outside of the group.
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.. versionadded:: 3.6
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.. versionchanged:: 3.7
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The letters ``'a'``, ``'L'`` and ``'u'`` also can be used in a group.
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.. index:: single: (?P<; in regular expressions
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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
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Python identifiers, and each group name must be defined only once within a
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regular expression. A symbolic group is also a numbered group, just as if
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the group were not named.
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Named groups can be referenced in three contexts. If the pattern is
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``(?P<quote>['"]).*?(?P=quote)`` (i.e. matching a string quoted with either
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single or double quotes):
|
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+---------------------------------------+----------------------------------+
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| Context of reference to group "quote" | Ways to reference it |
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+=======================================+==================================+
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| in the same pattern itself | * ``(?P=quote)`` (as shown) |
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| | * ``\1`` |
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+---------------------------------------+----------------------------------+
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| when processing match object *m* | * ``m.group('quote')`` |
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| | * ``m.end('quote')`` (etc.) |
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+---------------------------------------+----------------------------------+
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| in a string passed to the *repl* | * ``\g<quote>`` |
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| argument of ``re.sub()`` | * ``\g<1>`` |
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| | * ``\1`` |
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+---------------------------------------+----------------------------------+
|
||
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.. index:: single: (?P=; in regular expressions
|
||
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``(?P=name)``
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A backreference to a named group; it matches whatever text was matched by the
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earlier group named *name*.
|
||
|
||
.. index:: single: (?#; in regular expressions
|
||
|
||
``(?#...)``
|
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A comment; the contents of the parentheses are simply ignored.
|
||
|
||
.. index:: single: (?=; in regular expressions
|
||
|
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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 :dfn:`lookahead assertion`. For example, ``Isaac (?=Asimov)`` will match
|
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``'Isaac '`` only if it's followed by ``'Asimov'``.
|
||
|
||
.. index:: single: (?!; in regular expressions
|
||
|
||
``(?!...)``
|
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Matches if ``...`` doesn't match next. This is a :dfn:`negative lookahead assertion`.
|
||
For example, ``Isaac (?!Asimov)`` will match ``'Isaac '`` only if it's *not*
|
||
followed by ``'Asimov'``.
|
||
|
||
.. index:: single: (?<=; in regular expressions
|
||
|
||
``(?<=...)``
|
||
Matches if the current position in the string is preceded by a match for ``...``
|
||
that ends at the current position. This is called a :dfn:`positive lookbehind
|
||
assertion`. ``(?<=abc)def`` will find a match in ``'abcdef'``, since the
|
||
lookbehind will back up 3 characters and check if the contained pattern matches.
|
||
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
|
||
patterns which start with positive lookbehind assertions will not 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:
|
||
|
||
>>> 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:
|
||
|
||
>>> m = re.search(r'(?<=-)\w+', 'spam-egg')
|
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>>> m.group(0)
|
||
'egg'
|
||
|
||
.. versionchanged:: 3.5
|
||
Added support for group references of fixed length.
|
||
|
||
.. index:: single: (?<!; in regular expressions
|
||
|
||
``(?<!...)``
|
||
Matches if the current position in the string is not preceded by a match for
|
||
``...``. This is called a :dfn:`negative lookbehind assertion`. Similar to
|
||
positive lookbehind assertions, the contained pattern must only match strings of
|
||
some fixed length. Patterns which start with negative lookbehind assertions may
|
||
match at the beginning of the string being searched.
|
||
|
||
``(?(id/name)yes-pattern|no-pattern)``
|
||
Will try to match with ``yes-pattern`` if the group with given *id* or
|
||
*name* exists, and with ``no-pattern`` if it doesn't. ``no-pattern`` is
|
||
optional and can be omitted. For example,
|
||
``(<)?(\w+@\w+(?:\.\w+)+)(?(1)>|$)`` is a poor email matching pattern, which
|
||
will match with ``'<user@host.com>'`` as well as ``'user@host.com'``, but
|
||
not with ``'<user@host.com'`` nor ``'user@host.com>'``.
|
||
|
||
|
||
The special sequences consist of ``'\'`` and a character from the list below.
|
||
If the ordinary character is not an ASCII digit or an ASCII letter, then the
|
||
resulting RE will match the second character. For example, ``\$`` matches the
|
||
character ``'$'``.
|
||
|
||
.. index:: single: \ (backslash); in regular expressions
|
||
|
||
``\number``
|
||
Matches the contents of the group of the same number. Groups are numbered
|
||
starting from 1. For example, ``(.+) \1`` matches ``'the the'`` or ``'55 55'``,
|
||
but not ``'thethe'`` (note the space after the group). This special sequence
|
||
can only be used to match one of the first 99 groups. If the first digit of
|
||
*number* is 0, or *number* is 3 octal digits long, it will not be interpreted as
|
||
a group match, but as the character with octal value *number*. Inside the
|
||
``'['`` and ``']'`` of a character class, all numeric escapes are treated as
|
||
characters.
|
||
|
||
.. index:: single: \A; in regular expressions
|
||
|
||
``\A``
|
||
Matches only at the start of the string.
|
||
|
||
.. index:: single: \b; in regular expressions
|
||
|
||
``\b``
|
||
Matches the empty string, but only at the beginning or end of a word.
|
||
A word is defined as a sequence of word characters. Note that formally,
|
||
``\b`` is defined as the boundary between a ``\w`` and a ``\W`` character
|
||
(or vice versa), or between ``\w`` and the beginning/end of the string.
|
||
This means that ``r'\bfoo\b'`` matches ``'foo'``, ``'foo.'``, ``'(foo)'``,
|
||
``'bar foo baz'`` but not ``'foobar'`` or ``'foo3'``.
|
||
|
||
By default Unicode alphanumerics are the ones used in Unicode patterns, but
|
||
this can be changed by using the :const:`ASCII` flag. Word boundaries are
|
||
determined by the current locale if the :const:`LOCALE` flag is used.
|
||
Inside a character range, ``\b`` represents the backspace character, for
|
||
compatibility with Python's string literals.
|
||
|
||
.. index:: single: \B; in regular expressions
|
||
|
||
``\B``
|
||
Matches the empty string, but only when it is *not* at the beginning or end
|
||
of a word. This means that ``r'py\B'`` matches ``'python'``, ``'py3'``,
|
||
``'py2'``, but not ``'py'``, ``'py.'``, or ``'py!'``.
|
||
``\B`` is just the opposite of ``\b``, so word characters in Unicode
|
||
patterns are Unicode alphanumerics or the underscore, although this can
|
||
be changed by using the :const:`ASCII` flag. Word boundaries are
|
||
determined by the current locale if the :const:`LOCALE` flag is used.
|
||
|
||
.. index:: single: \d; in regular expressions
|
||
|
||
``\d``
|
||
For Unicode (str) patterns:
|
||
Matches any Unicode decimal digit (that is, any character in
|
||
Unicode character category [Nd]). This includes ``[0-9]``, and
|
||
also many other digit characters. If the :const:`ASCII` flag is
|
||
used only ``[0-9]`` is matched.
|
||
|
||
For 8-bit (bytes) patterns:
|
||
Matches any decimal digit; this is equivalent to ``[0-9]``.
|
||
|
||
.. index:: single: \D; in regular expressions
|
||
|
||
``\D``
|
||
Matches any character which is not a decimal digit. This is
|
||
the opposite of ``\d``. If the :const:`ASCII` flag is used this
|
||
becomes the equivalent of ``[^0-9]``.
|
||
|
||
.. index:: single: \s; in regular expressions
|
||
|
||
``\s``
|
||
For Unicode (str) patterns:
|
||
Matches Unicode whitespace characters (which includes
|
||
``[ \t\n\r\f\v]``, and also many other characters, for example the
|
||
non-breaking spaces mandated by typography rules in many
|
||
languages). If the :const:`ASCII` flag is used, only
|
||
``[ \t\n\r\f\v]`` is matched.
|
||
|
||
For 8-bit (bytes) patterns:
|
||
Matches characters considered whitespace in the ASCII character set;
|
||
this is equivalent to ``[ \t\n\r\f\v]``.
|
||
|
||
.. index:: single: \S; in regular expressions
|
||
|
||
``\S``
|
||
Matches any character which is not a whitespace character. This is
|
||
the opposite of ``\s``. If the :const:`ASCII` flag is used this
|
||
becomes the equivalent of ``[^ \t\n\r\f\v]``.
|
||
|
||
.. index:: single: \w; in regular expressions
|
||
|
||
``\w``
|
||
For Unicode (str) patterns:
|
||
Matches Unicode word characters; this includes most characters
|
||
that can be part of a word in any language, as well as numbers and
|
||
the underscore. If the :const:`ASCII` flag is used, only
|
||
``[a-zA-Z0-9_]`` is matched.
|
||
|
||
For 8-bit (bytes) patterns:
|
||
Matches characters considered alphanumeric in the ASCII character set;
|
||
this is equivalent to ``[a-zA-Z0-9_]``. If the :const:`LOCALE` flag is
|
||
used, matches characters considered alphanumeric in the current locale
|
||
and the underscore.
|
||
|
||
.. index:: single: \W; in regular expressions
|
||
|
||
``\W``
|
||
Matches any character which is not a word character. This is
|
||
the opposite of ``\w``. If the :const:`ASCII` flag is used this
|
||
becomes the equivalent of ``[^a-zA-Z0-9_]``. If the :const:`LOCALE` flag is
|
||
used, matches characters considered alphanumeric in the current locale
|
||
and the underscore.
|
||
|
||
.. index:: single: \Z; in regular expressions
|
||
|
||
``\Z``
|
||
Matches only at the end of the string.
|
||
|
||
.. index::
|
||
single: \a; in regular expressions
|
||
single: \b; in regular expressions
|
||
single: \f; in regular expressions
|
||
single: \n; in regular expressions
|
||
single: \N; in regular expressions
|
||
single: \r; in regular expressions
|
||
single: \t; in regular expressions
|
||
single: \u; in regular expressions
|
||
single: \U; in regular expressions
|
||
single: \v; in regular expressions
|
||
single: \x; in regular expressions
|
||
single: \\; in regular expressions
|
||
|
||
Most of the standard escapes supported by Python string literals are also
|
||
accepted by the regular expression parser::
|
||
|
||
\a \b \f \n
|
||
\N \r \t \u
|
||
\U \v \x \\
|
||
|
||
(Note that ``\b`` is used to represent word boundaries, and means "backspace"
|
||
only inside character classes.)
|
||
|
||
``'\u'``, ``'\U'``, and ``'\N'`` escape sequences are only recognized in Unicode
|
||
patterns. In bytes patterns they are errors. Unknown escapes of ASCII
|
||
letters are reserved for future use and treated as errors.
|
||
|
||
Octal escapes are included in a limited form. If the first digit is a 0, or if
|
||
there are three octal digits, it is considered an octal escape. Otherwise, it is
|
||
a group reference. As for string literals, octal escapes are always at most
|
||
three digits in length.
|
||
|
||
.. versionchanged:: 3.3
|
||
The ``'\u'`` and ``'\U'`` escape sequences have been added.
|
||
|
||
.. versionchanged:: 3.6
|
||
Unknown escapes consisting of ``'\'`` and an ASCII letter now are errors.
|
||
|
||
.. versionchanged:: 3.8
|
||
The ``'\N{name}'`` escape sequence has been added. As in string literals,
|
||
it expands to the named Unicode character (e.g. ``'\N{EM DASH}'``).
|
||
|
||
|
||
.. _contents-of-module-re:
|
||
|
||
Module Contents
|
||
---------------
|
||
|
||
The module defines several functions, constants, and an exception. Some of the
|
||
functions are simplified versions of the full featured methods for compiled
|
||
regular expressions. Most non-trivial applications always use the compiled
|
||
form.
|
||
|
||
.. versionchanged:: 3.6
|
||
Flag constants are now instances of :class:`RegexFlag`, which is a subclass of
|
||
:class:`enum.IntFlag`.
|
||
|
||
.. function:: compile(pattern, flags=0)
|
||
|
||
Compile a regular expression pattern into a :ref:`regular expression object
|
||
<re-objects>`, which can be used for matching using its
|
||
:func:`~Pattern.match`, :func:`~Pattern.search` and other methods, described
|
||
below.
|
||
|
||
The expression's behaviour can be modified by specifying a *flags* value.
|
||
Values can be any of the following variables, combined using bitwise OR (the
|
||
``|`` operator).
|
||
|
||
The sequence ::
|
||
|
||
prog = re.compile(pattern)
|
||
result = prog.match(string)
|
||
|
||
is equivalent to ::
|
||
|
||
result = re.match(pattern, string)
|
||
|
||
but using :func:`re.compile` and saving the resulting regular expression
|
||
object for reuse is more efficient when the expression will be used several
|
||
times in a single program.
|
||
|
||
.. note::
|
||
|
||
The compiled versions of the most recent patterns passed to
|
||
:func:`re.compile` and the module-level matching functions are cached, so
|
||
programs that use only a few regular expressions at a time needn't worry
|
||
about compiling regular expressions.
|
||
|
||
|
||
.. data:: A
|
||
ASCII
|
||
|
||
Make ``\w``, ``\W``, ``\b``, ``\B``, ``\d``, ``\D``, ``\s`` and ``\S``
|
||
perform ASCII-only matching instead of full Unicode matching. This is only
|
||
meaningful for Unicode patterns, and is ignored for byte patterns.
|
||
Corresponds to the inline flag ``(?a)``.
|
||
|
||
Note that for backward compatibility, the :const:`re.U` flag still
|
||
exists (as well as its synonym :const:`re.UNICODE` and its embedded
|
||
counterpart ``(?u)``), but these are redundant in Python 3 since
|
||
matches are Unicode by default for strings (and Unicode matching
|
||
isn't allowed for bytes).
|
||
|
||
|
||
.. data:: DEBUG
|
||
|
||
Display debug information about compiled expression.
|
||
No corresponding inline flag.
|
||
|
||
|
||
.. data:: I
|
||
IGNORECASE
|
||
|
||
Perform case-insensitive matching; expressions like ``[A-Z]`` will also
|
||
match lowercase letters. Full Unicode matching (such as ``Ü`` matching
|
||
``ü``) also works unless the :const:`re.ASCII` flag is used to disable
|
||
non-ASCII matches. The current locale does not change the effect of this
|
||
flag unless the :const:`re.LOCALE` flag is also used.
|
||
Corresponds to the inline flag ``(?i)``.
|
||
|
||
Note that when the Unicode patterns ``[a-z]`` or ``[A-Z]`` are used in
|
||
combination with the :const:`IGNORECASE` flag, they will match the 52 ASCII
|
||
letters and 4 additional non-ASCII letters: 'İ' (U+0130, Latin capital
|
||
letter I with dot above), 'ı' (U+0131, Latin small letter dotless i),
|
||
'ſ' (U+017F, Latin small letter long s) and 'K' (U+212A, Kelvin sign).
|
||
If the :const:`ASCII` flag is used, only letters 'a' to 'z'
|
||
and 'A' to 'Z' are matched.
|
||
|
||
.. data:: L
|
||
LOCALE
|
||
|
||
Make ``\w``, ``\W``, ``\b``, ``\B`` and case-insensitive matching
|
||
dependent on the current locale. This flag can be used only with bytes
|
||
patterns. The use of this flag is discouraged as the locale mechanism
|
||
is very unreliable, it only handles one "culture" at a time, and it only
|
||
works with 8-bit locales. Unicode matching is already enabled by default
|
||
in Python 3 for Unicode (str) patterns, and it is able to handle different
|
||
locales/languages.
|
||
Corresponds to the inline flag ``(?L)``.
|
||
|
||
.. versionchanged:: 3.6
|
||
:const:`re.LOCALE` can be used only with bytes patterns and is
|
||
not compatible with :const:`re.ASCII`.
|
||
|
||
.. versionchanged:: 3.7
|
||
Compiled regular expression objects with the :const:`re.LOCALE` flag no
|
||
longer depend on the locale at compile time. Only the locale at
|
||
matching time affects the result of matching.
|
||
|
||
|
||
.. data:: M
|
||
MULTILINE
|
||
|
||
When specified, the pattern character ``'^'`` matches at the beginning of the
|
||
string and at the beginning of each line (immediately following each newline);
|
||
and the pattern character ``'$'`` matches at the end of the string and at the
|
||
end of each line (immediately preceding each newline). By default, ``'^'``
|
||
matches only at the beginning of the string, and ``'$'`` only at the end of the
|
||
string and immediately before the newline (if any) at the end of the string.
|
||
Corresponds to the inline flag ``(?m)``.
|
||
|
||
|
||
.. data:: S
|
||
DOTALL
|
||
|
||
Make the ``'.'`` special character match any character at all, including a
|
||
newline; without this flag, ``'.'`` will match anything *except* a newline.
|
||
Corresponds to the inline flag ``(?s)``.
|
||
|
||
|
||
.. data:: X
|
||
VERBOSE
|
||
|
||
.. index:: single: # (hash); in regular expressions
|
||
|
||
This flag allows you to write regular expressions that look nicer and are
|
||
more readable by allowing you to visually separate logical sections of the
|
||
pattern and add comments. Whitespace within the pattern is ignored, except
|
||
when in a character class, or when preceded by an unescaped backslash,
|
||
or within tokens like ``*?``, ``(?:`` or ``(?P<...>``.
|
||
When a line contains a ``#`` that is not in a character class and is not
|
||
preceded by an unescaped backslash, all characters from the leftmost such
|
||
``#`` through the end of the line are ignored.
|
||
|
||
This means that the two following regular expression objects that match a
|
||
decimal number are functionally equal::
|
||
|
||
a = re.compile(r"""\d + # the integral part
|
||
\. # the decimal point
|
||
\d * # some fractional digits""", re.X)
|
||
b = re.compile(r"\d+\.\d*")
|
||
|
||
Corresponds to the inline flag ``(?x)``.
|
||
|
||
|
||
.. function:: search(pattern, string, flags=0)
|
||
|
||
Scan through *string* looking for the first location where the regular expression
|
||
*pattern* produces a match, and return a corresponding :ref:`match object
|
||
<match-objects>`. Return ``None`` if no position in the string matches the
|
||
pattern; note that this is different from finding a zero-length match at some
|
||
point in the string.
|
||
|
||
|
||
.. function:: match(pattern, string, flags=0)
|
||
|
||
If zero or more characters at the beginning of *string* match the regular
|
||
expression *pattern*, return a corresponding :ref:`match object
|
||
<match-objects>`. Return ``None`` if the string does not match the pattern;
|
||
note that this is different from a zero-length match.
|
||
|
||
Note that even in :const:`MULTILINE` mode, :func:`re.match` will only match
|
||
at the beginning of the string and not at the beginning of each line.
|
||
|
||
If you want to locate a match anywhere in *string*, use :func:`search`
|
||
instead (see also :ref:`search-vs-match`).
|
||
|
||
|
||
.. function:: fullmatch(pattern, string, flags=0)
|
||
|
||
If the whole *string* matches the regular expression *pattern*, return a
|
||
corresponding :ref:`match object <match-objects>`. Return ``None`` if the
|
||
string does not match the pattern; note that this is different from a
|
||
zero-length match.
|
||
|
||
.. versionadded:: 3.4
|
||
|
||
|
||
.. function:: split(pattern, string, maxsplit=0, flags=0)
|
||
|
||
Split *string* by the occurrences of *pattern*. If capturing parentheses are
|
||
used in *pattern*, then the text of all groups in the pattern are also returned
|
||
as part of the resulting list. If *maxsplit* is nonzero, at most *maxsplit*
|
||
splits occur, and the remainder of the string is returned as the final element
|
||
of the list. ::
|
||
|
||
>>> re.split(r'\W+', 'Words, words, words.')
|
||
['Words', 'words', 'words', '']
|
||
>>> re.split(r'(\W+)', 'Words, words, words.')
|
||
['Words', ', ', 'words', ', ', 'words', '.', '']
|
||
>>> re.split(r'\W+', 'Words, words, words.', 1)
|
||
['Words', 'words, words.']
|
||
>>> re.split('[a-f]+', '0a3B9', flags=re.IGNORECASE)
|
||
['0', '3', '9']
|
||
|
||
If there are capturing groups in the separator and it matches at the start of
|
||
the string, the result will start with an empty string. The same holds for
|
||
the end of the string::
|
||
|
||
>>> re.split(r'(\W+)', '...words, words...')
|
||
['', '...', 'words', ', ', 'words', '...', '']
|
||
|
||
That way, separator components are always found at the same relative
|
||
indices within the result list.
|
||
|
||
Empty matches for the pattern split the string only when not adjacent
|
||
to a previous empty match.
|
||
|
||
>>> re.split(r'\b', 'Words, words, words.')
|
||
['', 'Words', ', ', 'words', ', ', 'words', '.']
|
||
>>> re.split(r'\W*', '...words...')
|
||
['', '', 'w', 'o', 'r', 'd', 's', '', '']
|
||
>>> re.split(r'(\W*)', '...words...')
|
||
['', '...', '', '', 'w', '', 'o', '', 'r', '', 'd', '', 's', '...', '', '', '']
|
||
|
||
.. versionchanged:: 3.1
|
||
Added the optional flags argument.
|
||
|
||
.. versionchanged:: 3.7
|
||
Added support of splitting on a pattern that could match an empty string.
|
||
|
||
|
||
.. function:: findall(pattern, string, flags=0)
|
||
|
||
Return all non-overlapping matches of *pattern* in *string*, as a list of
|
||
strings. The *string* is scanned left-to-right, and matches are returned in
|
||
the order found. If one or more groups are present in the pattern, return a
|
||
list of groups; this will be a list of tuples if the pattern has more than
|
||
one group. Empty matches are included in the result.
|
||
|
||
.. versionchanged:: 3.7
|
||
Non-empty matches can now start just after a previous empty match.
|
||
|
||
|
||
.. function:: finditer(pattern, string, flags=0)
|
||
|
||
Return an :term:`iterator` yielding :ref:`match objects <match-objects>` over
|
||
all non-overlapping matches for the RE *pattern* in *string*. The *string*
|
||
is scanned left-to-right, and matches are returned in the order found. Empty
|
||
matches are included in the result.
|
||
|
||
.. versionchanged:: 3.7
|
||
Non-empty matches can now start just after a previous empty match.
|
||
|
||
|
||
.. function:: sub(pattern, repl, string, count=0, flags=0)
|
||
|
||
Return the string obtained by replacing the leftmost non-overlapping occurrences
|
||
of *pattern* in *string* by the replacement *repl*. If the pattern isn't found,
|
||
*string* is returned unchanged. *repl* can be a string or a function; if it 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 of ASCII letters are reserved for future use and
|
||
treated as errors. Other unknown escapes such as ``\&`` are left alone.
|
||
Backreferences, such
|
||
as ``\6``, are replaced with the substring matched by group 6 in the pattern.
|
||
For example::
|
||
|
||
>>> re.sub(r'def\s+([a-zA-Z_][a-zA-Z_0-9]*)\s*\(\s*\):',
|
||
... r'static PyObject*\npy_\1(void)\n{',
|
||
... 'def myfunc():')
|
||
'static PyObject*\npy_myfunc(void)\n{'
|
||
|
||
If *repl* is a function, it is called for every non-overlapping occurrence of
|
||
*pattern*. The function takes a single :ref:`match object <match-objects>`
|
||
argument, and returns the replacement string. For example::
|
||
|
||
>>> def dashrepl(matchobj):
|
||
... if matchobj.group(0) == '-': return ' '
|
||
... else: return '-'
|
||
>>> re.sub('-{1,2}', dashrepl, 'pro----gram-files')
|
||
'pro--gram files'
|
||
>>> re.sub(r'\sAND\s', ' & ', 'Baked Beans And Spam', flags=re.IGNORECASE)
|
||
'Baked Beans & Spam'
|
||
|
||
The pattern may be a string or a :ref:`pattern object <re-objects>`.
|
||
|
||
The optional argument *count* is the maximum number of pattern occurrences to be
|
||
replaced; *count* must be a non-negative integer. If omitted or zero, all
|
||
occurrences will be replaced. Empty matches for the pattern are replaced only
|
||
when not adjacent to a previous empty match, so ``sub('x*', '-', 'abxd')`` returns
|
||
``'-a-b--d-'``.
|
||
|
||
.. index:: single: \g; in regular expressions
|
||
|
||
In string-type *repl* arguments, in addition to the character escapes and
|
||
backreferences described above,
|
||
``\g<name>`` will use the substring matched by the group named ``name``, as
|
||
defined by the ``(?P<name>...)`` syntax. ``\g<number>`` uses the corresponding
|
||
group number; ``\g<2>`` is therefore equivalent to ``\2``, but isn't ambiguous
|
||
in a replacement 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 backreference ``\g<0>`` substitutes in the entire
|
||
substring matched by the RE.
|
||
|
||
.. versionchanged:: 3.1
|
||
Added the optional flags argument.
|
||
|
||
.. versionchanged:: 3.5
|
||
Unmatched groups are replaced with an empty string.
|
||
|
||
.. versionchanged:: 3.6
|
||
Unknown escapes in *pattern* consisting of ``'\'`` and an ASCII letter
|
||
now are errors.
|
||
|
||
.. versionchanged:: 3.7
|
||
Unknown escapes in *repl* consisting of ``'\'`` and an ASCII letter
|
||
now are errors.
|
||
|
||
Empty matches for the pattern are replaced when adjacent to a previous
|
||
non-empty match.
|
||
|
||
|
||
.. function:: subn(pattern, repl, string, count=0, flags=0)
|
||
|
||
Perform the same operation as :func:`sub`, but return a tuple ``(new_string,
|
||
number_of_subs_made)``.
|
||
|
||
.. versionchanged:: 3.1
|
||
Added the optional flags argument.
|
||
|
||
.. versionchanged:: 3.5
|
||
Unmatched groups are replaced with an empty string.
|
||
|
||
|
||
.. function:: escape(pattern)
|
||
|
||
Escape special characters in *pattern*.
|
||
This is useful if you want to match an arbitrary literal string that may
|
||
have regular expression metacharacters in it. For example::
|
||
|
||
>>> print(re.escape('python.exe'))
|
||
python\.exe
|
||
|
||
>>> legal_chars = string.ascii_lowercase + string.digits + "!#$%&'*+-.^_`|~:"
|
||
>>> print('[%s]+' % re.escape(legal_chars))
|
||
[abcdefghijklmnopqrstuvwxyz0123456789!\#\$%\&'\*\+\-\.\^_`\|\~:]+
|
||
|
||
>>> operators = ['+', '-', '*', '/', '**']
|
||
>>> print('|'.join(map(re.escape, sorted(operators, reverse=True))))
|
||
/|\-|\+|\*\*|\*
|
||
|
||
This functions must not be used for the replacement string in :func:`sub`
|
||
and :func:`subn`, only backslashes should be escaped. For example::
|
||
|
||
>>> digits_re = r'\d+'
|
||
>>> sample = '/usr/sbin/sendmail - 0 errors, 12 warnings'
|
||
>>> print(re.sub(digits_re, digits_re.replace('\\', r'\\'), sample))
|
||
/usr/sbin/sendmail - \d+ errors, \d+ warnings
|
||
|
||
.. versionchanged:: 3.3
|
||
The ``'_'`` character is no longer escaped.
|
||
|
||
.. versionchanged:: 3.7
|
||
Only characters that can have special meaning in a regular expression
|
||
are escaped.
|
||
|
||
|
||
.. function:: purge()
|
||
|
||
Clear the regular expression cache.
|
||
|
||
|
||
.. exception:: error(msg, pattern=None, pos=None)
|
||
|
||
Exception raised when a string passed to one of the functions here is not a
|
||
valid regular expression (for example, it might contain unmatched parentheses)
|
||
or when some other error occurs during compilation or matching. It is never an
|
||
error if a string contains no match for a pattern. The error instance has
|
||
the following additional attributes:
|
||
|
||
.. attribute:: msg
|
||
|
||
The unformatted error message.
|
||
|
||
.. attribute:: pattern
|
||
|
||
The regular expression pattern.
|
||
|
||
.. attribute:: pos
|
||
|
||
The index in *pattern* where compilation failed (may be ``None``).
|
||
|
||
.. attribute:: lineno
|
||
|
||
The line corresponding to *pos* (may be ``None``).
|
||
|
||
.. attribute:: colno
|
||
|
||
The column corresponding to *pos* (may be ``None``).
|
||
|
||
.. versionchanged:: 3.5
|
||
Added additional attributes.
|
||
|
||
.. _re-objects:
|
||
|
||
Regular Expression Objects
|
||
--------------------------
|
||
|
||
Compiled regular expression objects support the following methods and
|
||
attributes:
|
||
|
||
.. method:: Pattern.search(string[, pos[, endpos]])
|
||
|
||
Scan through *string* looking for the first location where this regular
|
||
expression produces a match, and return a corresponding :ref:`match object
|
||
<match-objects>`. Return ``None`` if no position in the string matches the
|
||
pattern; note that this is different from finding a zero-length match at some
|
||
point in the string.
|
||
|
||
The optional second parameter *pos* gives an index in the string where the
|
||
search is to start; it defaults to ``0``. This is not completely equivalent to
|
||
slicing the string; the ``'^'`` pattern character matches at the real beginning
|
||
of the string and at positions just after a newline, but not necessarily at the
|
||
index where the search is to start.
|
||
|
||
The optional parameter *endpos* limits how far the string will be searched; it
|
||
will be as if the string is *endpos* characters long, so only the characters
|
||
from *pos* to ``endpos - 1`` will be searched for a match. If *endpos* is less
|
||
than *pos*, no match will be found; otherwise, if *rx* is a compiled regular
|
||
expression object, ``rx.search(string, 0, 50)`` is equivalent to
|
||
``rx.search(string[:50], 0)``. ::
|
||
|
||
>>> pattern = re.compile("d")
|
||
>>> pattern.search("dog") # Match at index 0
|
||
<re.Match object; span=(0, 1), match='d'>
|
||
>>> pattern.search("dog", 1) # No match; search doesn't include the "d"
|
||
|
||
|
||
.. method:: Pattern.match(string[, pos[, endpos]])
|
||
|
||
If zero or more characters at the *beginning* of *string* match this regular
|
||
expression, return a corresponding :ref:`match object <match-objects>`.
|
||
Return ``None`` if the string does not match the pattern; note that this is
|
||
different from a zero-length match.
|
||
|
||
The optional *pos* and *endpos* parameters have the same meaning as for the
|
||
:meth:`~Pattern.search` method. ::
|
||
|
||
>>> pattern = re.compile("o")
|
||
>>> pattern.match("dog") # No match as "o" is not at the start of "dog".
|
||
>>> pattern.match("dog", 1) # Match as "o" is the 2nd character of "dog".
|
||
<re.Match object; span=(1, 2), match='o'>
|
||
|
||
If you want to locate a match anywhere in *string*, use
|
||
:meth:`~Pattern.search` instead (see also :ref:`search-vs-match`).
|
||
|
||
|
||
.. method:: Pattern.fullmatch(string[, pos[, endpos]])
|
||
|
||
If the whole *string* matches this regular expression, return a corresponding
|
||
:ref:`match object <match-objects>`. Return ``None`` if the string does not
|
||
match the pattern; note that this is different from a zero-length match.
|
||
|
||
The optional *pos* and *endpos* parameters have the same meaning as for the
|
||
:meth:`~Pattern.search` method. ::
|
||
|
||
>>> pattern = re.compile("o[gh]")
|
||
>>> pattern.fullmatch("dog") # No match as "o" is not at the start of "dog".
|
||
>>> pattern.fullmatch("ogre") # No match as not the full string matches.
|
||
>>> pattern.fullmatch("doggie", 1, 3) # Matches within given limits.
|
||
<re.Match object; span=(1, 3), match='og'>
|
||
|
||
.. versionadded:: 3.4
|
||
|
||
|
||
.. method:: Pattern.split(string, maxsplit=0)
|
||
|
||
Identical to the :func:`split` function, using the compiled pattern.
|
||
|
||
|
||
.. method:: Pattern.findall(string[, pos[, endpos]])
|
||
|
||
Similar to the :func:`findall` function, using the compiled pattern, but
|
||
also accepts optional *pos* and *endpos* parameters that limit the search
|
||
region like for :meth:`search`.
|
||
|
||
|
||
.. method:: Pattern.finditer(string[, pos[, endpos]])
|
||
|
||
Similar to the :func:`finditer` function, using the compiled pattern, but
|
||
also accepts optional *pos* and *endpos* parameters that limit the search
|
||
region like for :meth:`search`.
|
||
|
||
|
||
.. method:: Pattern.sub(repl, string, count=0)
|
||
|
||
Identical to the :func:`sub` function, using the compiled pattern.
|
||
|
||
|
||
.. method:: Pattern.subn(repl, string, count=0)
|
||
|
||
Identical to the :func:`subn` function, using the compiled pattern.
|
||
|
||
|
||
.. attribute:: Pattern.flags
|
||
|
||
The regex matching flags. This is a combination of the flags given to
|
||
:func:`.compile`, any ``(?...)`` inline flags in the pattern, and implicit
|
||
flags such as :data:`UNICODE` if the pattern is a Unicode string.
|
||
|
||
|
||
.. attribute:: Pattern.groups
|
||
|
||
The number of capturing groups in the pattern.
|
||
|
||
|
||
.. attribute:: Pattern.groupindex
|
||
|
||
A dictionary mapping any symbolic group names defined by ``(?P<id>)`` to group
|
||
numbers. The dictionary is empty if no symbolic groups were used in the
|
||
pattern.
|
||
|
||
|
||
.. attribute:: Pattern.pattern
|
||
|
||
The pattern string from which the pattern object was compiled.
|
||
|
||
|
||
.. versionchanged:: 3.7
|
||
Added support of :func:`copy.copy` and :func:`copy.deepcopy`. Compiled
|
||
regular expression objects are considered atomic.
|
||
|
||
|
||
.. _match-objects:
|
||
|
||
Match Objects
|
||
-------------
|
||
|
||
Match objects always have a boolean value of ``True``.
|
||
Since :meth:`~Pattern.match` and :meth:`~Pattern.search` return ``None``
|
||
when there is no match, you can test whether there was a match with a simple
|
||
``if`` statement::
|
||
|
||
match = re.search(pattern, string)
|
||
if match:
|
||
process(match)
|
||
|
||
Match objects support the following methods and attributes:
|
||
|
||
|
||
.. method:: Match.expand(template)
|
||
|
||
Return the string obtained by doing backslash substitution on the template
|
||
string *template*, as done by the :meth:`~Pattern.sub` method.
|
||
Escapes such as ``\n`` are converted to the appropriate characters,
|
||
and numeric backreferences (``\1``, ``\2``) and named backreferences
|
||
(``\g<1>``, ``\g<name>``) are replaced by the contents of the
|
||
corresponding group.
|
||
|
||
.. versionchanged:: 3.5
|
||
Unmatched groups are replaced with an empty string.
|
||
|
||
.. method:: Match.group([group1, ...])
|
||
|
||
Returns one or more subgroups of the match. If there is a single argument, the
|
||
result is a single string; if there are multiple arguments, the result is a
|
||
tuple with one item per argument. Without arguments, *group1* defaults to zero
|
||
(the whole match is returned). If a *groupN* argument is zero, the corresponding
|
||
return value is the entire matching string; if it is in the inclusive range
|
||
[1..99], it is the string matching the corresponding parenthesized group. If a
|
||
group number is negative or larger than the number of groups defined in the
|
||
pattern, an :exc:`IndexError` exception is raised. If a group is contained in a
|
||
part of the pattern that did not match, the corresponding result is ``None``.
|
||
If a group is contained in a part of the pattern that matched multiple times,
|
||
the last match is returned. ::
|
||
|
||
>>> m = re.match(r"(\w+) (\w+)", "Isaac Newton, physicist")
|
||
>>> m.group(0) # The entire match
|
||
'Isaac Newton'
|
||
>>> m.group(1) # The first parenthesized subgroup.
|
||
'Isaac'
|
||
>>> m.group(2) # The second parenthesized subgroup.
|
||
'Newton'
|
||
>>> m.group(1, 2) # Multiple arguments give us a tuple.
|
||
('Isaac', 'Newton')
|
||
|
||
If the regular expression uses the ``(?P<name>...)`` syntax, the *groupN*
|
||
arguments may also be strings identifying groups by their group name. If a
|
||
string argument is not used as a group name in the pattern, an :exc:`IndexError`
|
||
exception is raised.
|
||
|
||
A moderately complicated example::
|
||
|
||
>>> m = re.match(r"(?P<first_name>\w+) (?P<last_name>\w+)", "Malcolm Reynolds")
|
||
>>> m.group('first_name')
|
||
'Malcolm'
|
||
>>> m.group('last_name')
|
||
'Reynolds'
|
||
|
||
Named groups can also be referred to by their index::
|
||
|
||
>>> m.group(1)
|
||
'Malcolm'
|
||
>>> m.group(2)
|
||
'Reynolds'
|
||
|
||
If a group matches multiple times, only the last match is accessible::
|
||
|
||
>>> m = re.match(r"(..)+", "a1b2c3") # Matches 3 times.
|
||
>>> m.group(1) # Returns only the last match.
|
||
'c3'
|
||
|
||
|
||
.. method:: Match.__getitem__(g)
|
||
|
||
This is identical to ``m.group(g)``. This allows easier access to
|
||
an individual group from a match::
|
||
|
||
>>> m = re.match(r"(\w+) (\w+)", "Isaac Newton, physicist")
|
||
>>> m[0] # The entire match
|
||
'Isaac Newton'
|
||
>>> m[1] # The first parenthesized subgroup.
|
||
'Isaac'
|
||
>>> m[2] # The second parenthesized subgroup.
|
||
'Newton'
|
||
|
||
.. versionadded:: 3.6
|
||
|
||
|
||
.. method:: Match.groups(default=None)
|
||
|
||
Return a tuple containing all the subgroups of the match, from 1 up to however
|
||
many groups are in the pattern. The *default* argument is used for groups that
|
||
did not participate in the match; it defaults to ``None``.
|
||
|
||
For example::
|
||
|
||
>>> m = re.match(r"(\d+)\.(\d+)", "24.1632")
|
||
>>> m.groups()
|
||
('24', '1632')
|
||
|
||
If we make the decimal place and everything after it optional, not all groups
|
||
might participate in the match. These groups will default to ``None`` unless
|
||
the *default* argument is given::
|
||
|
||
>>> m = re.match(r"(\d+)\.?(\d+)?", "24")
|
||
>>> m.groups() # Second group defaults to None.
|
||
('24', None)
|
||
>>> m.groups('0') # Now, the second group defaults to '0'.
|
||
('24', '0')
|
||
|
||
|
||
.. method:: Match.groupdict(default=None)
|
||
|
||
Return a dictionary containing all the *named* subgroups of the match, keyed by
|
||
the subgroup name. The *default* argument is used for groups that did not
|
||
participate in the match; it defaults to ``None``. For example::
|
||
|
||
>>> m = re.match(r"(?P<first_name>\w+) (?P<last_name>\w+)", "Malcolm Reynolds")
|
||
>>> m.groupdict()
|
||
{'first_name': 'Malcolm', 'last_name': 'Reynolds'}
|
||
|
||
|
||
.. method:: Match.start([group])
|
||
Match.end([group])
|
||
|
||
Return the indices of the start and end of the substring matched by *group*;
|
||
*group* defaults to zero (meaning the whole matched substring). Return ``-1`` if
|
||
*group* exists but did not contribute to the match. For a match object *m*, and
|
||
a group *g* that did contribute to the match, the substring matched by group *g*
|
||
(equivalent to ``m.group(g)``) is ::
|
||
|
||
m.string[m.start(g):m.end(g)]
|
||
|
||
Note that ``m.start(group)`` will equal ``m.end(group)`` if *group* matched a
|
||
null string. For example, after ``m = re.search('b(c?)', 'cba')``,
|
||
``m.start(0)`` is 1, ``m.end(0)`` is 2, ``m.start(1)`` and ``m.end(1)`` are both
|
||
2, and ``m.start(2)`` raises an :exc:`IndexError` exception.
|
||
|
||
An example that will remove *remove_this* from email addresses::
|
||
|
||
>>> email = "tony@tiremove_thisger.net"
|
||
>>> m = re.search("remove_this", email)
|
||
>>> email[:m.start()] + email[m.end():]
|
||
'tony@tiger.net'
|
||
|
||
|
||
.. method:: Match.span([group])
|
||
|
||
For a match *m*, return the 2-tuple ``(m.start(group), m.end(group))``. Note
|
||
that if *group* did not contribute to the match, this is ``(-1, -1)``.
|
||
*group* defaults to zero, the entire match.
|
||
|
||
|
||
.. attribute:: Match.pos
|
||
|
||
The value of *pos* which was passed to the :meth:`~Pattern.search` or
|
||
:meth:`~Pattern.match` method of a :ref:`regex object <re-objects>`. This is
|
||
the index into the string at which the RE engine started looking for a match.
|
||
|
||
|
||
.. attribute:: Match.endpos
|
||
|
||
The value of *endpos* which was passed to the :meth:`~Pattern.search` or
|
||
:meth:`~Pattern.match` method of a :ref:`regex object <re-objects>`. This is
|
||
the index into the string beyond which the RE engine will not go.
|
||
|
||
|
||
.. attribute:: Match.lastindex
|
||
|
||
The integer index of the last matched capturing group, or ``None`` if no group
|
||
was matched at all. For example, the expressions ``(a)b``, ``((a)(b))``, and
|
||
``((ab))`` will have ``lastindex == 1`` if applied to the string ``'ab'``, while
|
||
the expression ``(a)(b)`` will have ``lastindex == 2``, if applied to the same
|
||
string.
|
||
|
||
|
||
.. attribute:: Match.lastgroup
|
||
|
||
The name of the last matched capturing group, or ``None`` if the group didn't
|
||
have a name, or if no group was matched at all.
|
||
|
||
|
||
.. attribute:: Match.re
|
||
|
||
The :ref:`regular expression object <re-objects>` whose :meth:`~Pattern.match` or
|
||
:meth:`~Pattern.search` method produced this match instance.
|
||
|
||
|
||
.. attribute:: Match.string
|
||
|
||
The string passed to :meth:`~Pattern.match` or :meth:`~Pattern.search`.
|
||
|
||
|
||
.. versionchanged:: 3.7
|
||
Added support of :func:`copy.copy` and :func:`copy.deepcopy`. Match objects
|
||
are considered atomic.
|
||
|
||
|
||
.. _re-examples:
|
||
|
||
Regular Expression Examples
|
||
---------------------------
|
||
|
||
|
||
Checking for a Pair
|
||
^^^^^^^^^^^^^^^^^^^
|
||
|
||
In this example, we'll use the following helper function to display match
|
||
objects a little more gracefully::
|
||
|
||
def displaymatch(match):
|
||
if match is None:
|
||
return None
|
||
return '<Match: %r, groups=%r>' % (match.group(), match.groups())
|
||
|
||
Suppose you are writing a poker program where a player's hand is represented as
|
||
a 5-character string with each character representing a card, "a" for ace, "k"
|
||
for king, "q" for queen, "j" for jack, "t" for 10, and "2" through "9"
|
||
representing the card with that value.
|
||
|
||
To see if a given string is a valid hand, one could do the following::
|
||
|
||
>>> valid = re.compile(r"^[a2-9tjqk]{5}$")
|
||
>>> displaymatch(valid.match("akt5q")) # Valid.
|
||
"<Match: 'akt5q', groups=()>"
|
||
>>> displaymatch(valid.match("akt5e")) # Invalid.
|
||
>>> displaymatch(valid.match("akt")) # Invalid.
|
||
>>> displaymatch(valid.match("727ak")) # Valid.
|
||
"<Match: '727ak', groups=()>"
|
||
|
||
That last hand, ``"727ak"``, contained a pair, or two of the same valued cards.
|
||
To match this with a regular expression, one could use backreferences as such::
|
||
|
||
>>> pair = re.compile(r".*(.).*\1")
|
||
>>> displaymatch(pair.match("717ak")) # Pair of 7s.
|
||
"<Match: '717', groups=('7',)>"
|
||
>>> displaymatch(pair.match("718ak")) # No pairs.
|
||
>>> displaymatch(pair.match("354aa")) # Pair of aces.
|
||
"<Match: '354aa', groups=('a',)>"
|
||
|
||
To find out what card the pair consists of, one could use the
|
||
:meth:`~Match.group` method of the match object in the following manner::
|
||
|
||
>>> pair = re.compile(r".*(.).*\1")
|
||
>>> pair.match("717ak").group(1)
|
||
'7'
|
||
|
||
# Error because re.match() returns None, which doesn't have a group() method:
|
||
>>> pair.match("718ak").group(1)
|
||
Traceback (most recent call last):
|
||
File "<pyshell#23>", line 1, in <module>
|
||
re.match(r".*(.).*\1", "718ak").group(1)
|
||
AttributeError: 'NoneType' object has no attribute 'group'
|
||
|
||
>>> pair.match("354aa").group(1)
|
||
'a'
|
||
|
||
|
||
Simulating scanf()
|
||
^^^^^^^^^^^^^^^^^^
|
||
|
||
.. index:: single: scanf()
|
||
|
||
Python does not currently have an equivalent to :c:func:`scanf`. Regular
|
||
expressions are generally more powerful, though also more verbose, than
|
||
:c:func:`scanf` format strings. The table below offers some more-or-less
|
||
equivalent mappings between :c:func:`scanf` format tokens and regular
|
||
expressions.
|
||
|
||
+--------------------------------+---------------------------------------------+
|
||
| :c:func:`scanf` Token | Regular Expression |
|
||
+================================+=============================================+
|
||
| ``%c`` | ``.`` |
|
||
+--------------------------------+---------------------------------------------+
|
||
| ``%5c`` | ``.{5}`` |
|
||
+--------------------------------+---------------------------------------------+
|
||
| ``%d`` | ``[-+]?\d+`` |
|
||
+--------------------------------+---------------------------------------------+
|
||
| ``%e``, ``%E``, ``%f``, ``%g`` | ``[-+]?(\d+(\.\d*)?|\.\d+)([eE][-+]?\d+)?`` |
|
||
+--------------------------------+---------------------------------------------+
|
||
| ``%i`` | ``[-+]?(0[xX][\dA-Fa-f]+|0[0-7]*|\d+)`` |
|
||
+--------------------------------+---------------------------------------------+
|
||
| ``%o`` | ``[-+]?[0-7]+`` |
|
||
+--------------------------------+---------------------------------------------+
|
||
| ``%s`` | ``\S+`` |
|
||
+--------------------------------+---------------------------------------------+
|
||
| ``%u`` | ``\d+`` |
|
||
+--------------------------------+---------------------------------------------+
|
||
| ``%x``, ``%X`` | ``[-+]?(0[xX])?[\dA-Fa-f]+`` |
|
||
+--------------------------------+---------------------------------------------+
|
||
|
||
To extract the filename and numbers from a string like ::
|
||
|
||
/usr/sbin/sendmail - 0 errors, 4 warnings
|
||
|
||
you would use a :c:func:`scanf` format like ::
|
||
|
||
%s - %d errors, %d warnings
|
||
|
||
The equivalent regular expression would be ::
|
||
|
||
(\S+) - (\d+) errors, (\d+) warnings
|
||
|
||
|
||
.. _search-vs-match:
|
||
|
||
search() vs. match()
|
||
^^^^^^^^^^^^^^^^^^^^
|
||
|
||
.. sectionauthor:: Fred L. Drake, Jr. <fdrake@acm.org>
|
||
|
||
Python offers two different primitive operations based on regular expressions:
|
||
:func:`re.match` checks for a match only at the beginning of the string, while
|
||
:func:`re.search` checks for a match anywhere in the string (this is what Perl
|
||
does by default).
|
||
|
||
For example::
|
||
|
||
>>> re.match("c", "abcdef") # No match
|
||
>>> re.search("c", "abcdef") # Match
|
||
<re.Match object; span=(2, 3), match='c'>
|
||
|
||
Regular expressions beginning with ``'^'`` can be used with :func:`search` to
|
||
restrict the match at the beginning of the string::
|
||
|
||
>>> re.match("c", "abcdef") # No match
|
||
>>> re.search("^c", "abcdef") # No match
|
||
>>> re.search("^a", "abcdef") # Match
|
||
<re.Match object; span=(0, 1), match='a'>
|
||
|
||
Note however that in :const:`MULTILINE` mode :func:`match` only matches at the
|
||
beginning of the string, whereas using :func:`search` with a regular expression
|
||
beginning with ``'^'`` will match at the beginning of each line. ::
|
||
|
||
>>> re.match('X', 'A\nB\nX', re.MULTILINE) # No match
|
||
>>> re.search('^X', 'A\nB\nX', re.MULTILINE) # Match
|
||
<re.Match object; span=(4, 5), match='X'>
|
||
|
||
|
||
Making a Phonebook
|
||
^^^^^^^^^^^^^^^^^^
|
||
|
||
:func:`split` splits a string into a list delimited by the passed pattern. The
|
||
method is invaluable for converting textual data into data structures that can be
|
||
easily read and modified by Python as demonstrated in the following example that
|
||
creates a phonebook.
|
||
|
||
First, here is the input. Normally it may come from a file, here we are using
|
||
triple-quoted string syntax
|
||
|
||
.. doctest::
|
||
|
||
>>> text = """Ross McFluff: 834.345.1254 155 Elm Street
|
||
...
|
||
... Ronald Heathmore: 892.345.3428 436 Finley Avenue
|
||
... Frank Burger: 925.541.7625 662 South Dogwood Way
|
||
...
|
||
...
|
||
... Heather Albrecht: 548.326.4584 919 Park Place"""
|
||
|
||
The entries are separated by one or more newlines. Now we convert the string
|
||
into a list with each nonempty line having its own entry:
|
||
|
||
.. doctest::
|
||
:options: +NORMALIZE_WHITESPACE
|
||
|
||
>>> entries = re.split("\n+", text)
|
||
>>> entries
|
||
['Ross McFluff: 834.345.1254 155 Elm Street',
|
||
'Ronald Heathmore: 892.345.3428 436 Finley Avenue',
|
||
'Frank Burger: 925.541.7625 662 South Dogwood Way',
|
||
'Heather Albrecht: 548.326.4584 919 Park Place']
|
||
|
||
Finally, split each entry into a list with first name, last name, telephone
|
||
number, and address. We use the ``maxsplit`` parameter of :func:`split`
|
||
because the address has spaces, our splitting pattern, in it:
|
||
|
||
.. doctest::
|
||
:options: +NORMALIZE_WHITESPACE
|
||
|
||
>>> [re.split(":? ", entry, 3) for entry in entries]
|
||
[['Ross', 'McFluff', '834.345.1254', '155 Elm Street'],
|
||
['Ronald', 'Heathmore', '892.345.3428', '436 Finley Avenue'],
|
||
['Frank', 'Burger', '925.541.7625', '662 South Dogwood Way'],
|
||
['Heather', 'Albrecht', '548.326.4584', '919 Park Place']]
|
||
|
||
The ``:?`` pattern matches the colon after the last name, so that it does not
|
||
occur in the result list. With a ``maxsplit`` of ``4``, we could separate the
|
||
house number from the street name:
|
||
|
||
.. doctest::
|
||
:options: +NORMALIZE_WHITESPACE
|
||
|
||
>>> [re.split(":? ", entry, 4) for entry in entries]
|
||
[['Ross', 'McFluff', '834.345.1254', '155', 'Elm Street'],
|
||
['Ronald', 'Heathmore', '892.345.3428', '436', 'Finley Avenue'],
|
||
['Frank', 'Burger', '925.541.7625', '662', 'South Dogwood Way'],
|
||
['Heather', 'Albrecht', '548.326.4584', '919', 'Park Place']]
|
||
|
||
|
||
Text Munging
|
||
^^^^^^^^^^^^
|
||
|
||
:func:`sub` replaces every occurrence of a pattern with a string or the
|
||
result of a function. This example demonstrates using :func:`sub` with
|
||
a function to "munge" text, or randomize the order of all the characters
|
||
in each word of a sentence except for the first and last characters::
|
||
|
||
>>> def repl(m):
|
||
... inner_word = list(m.group(2))
|
||
... random.shuffle(inner_word)
|
||
... return m.group(1) + "".join(inner_word) + m.group(3)
|
||
>>> text = "Professor Abdolmalek, please report your absences promptly."
|
||
>>> re.sub(r"(\w)(\w+)(\w)", repl, text)
|
||
'Poefsrosr Aealmlobdk, pslaee reorpt your abnseces plmrptoy.'
|
||
>>> re.sub(r"(\w)(\w+)(\w)", repl, text)
|
||
'Pofsroser Aodlambelk, plasee reoprt yuor asnebces potlmrpy.'
|
||
|
||
|
||
Finding all Adverbs
|
||
^^^^^^^^^^^^^^^^^^^
|
||
|
||
:func:`findall` matches *all* occurrences of a pattern, not just the first
|
||
one as :func:`search` does. For example, if a writer wanted to
|
||
find all of the adverbs in some text, they might use :func:`findall` in
|
||
the following manner::
|
||
|
||
>>> text = "He was carefully disguised but captured quickly by police."
|
||
>>> re.findall(r"\w+ly", text)
|
||
['carefully', 'quickly']
|
||
|
||
|
||
Finding all Adverbs and their Positions
|
||
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
||
|
||
If one wants more information about all matches of a pattern than the matched
|
||
text, :func:`finditer` is useful as it provides :ref:`match objects
|
||
<match-objects>` instead of strings. Continuing with the previous example, if
|
||
a writer wanted to find all of the adverbs *and their positions* in
|
||
some text, they would use :func:`finditer` in the following manner::
|
||
|
||
>>> text = "He was carefully disguised but captured quickly by police."
|
||
>>> for m in re.finditer(r"\w+ly", text):
|
||
... print('%02d-%02d: %s' % (m.start(), m.end(), m.group(0)))
|
||
07-16: carefully
|
||
40-47: quickly
|
||
|
||
|
||
Raw String Notation
|
||
^^^^^^^^^^^^^^^^^^^
|
||
|
||
Raw string notation (``r"text"``) keeps regular expressions sane. Without it,
|
||
every backslash (``'\'``) in a regular expression would have to be prefixed with
|
||
another one to escape it. For example, the two following lines of code are
|
||
functionally identical::
|
||
|
||
>>> re.match(r"\W(.)\1\W", " ff ")
|
||
<re.Match object; span=(0, 4), match=' ff '>
|
||
>>> re.match("\\W(.)\\1\\W", " ff ")
|
||
<re.Match object; span=(0, 4), match=' ff '>
|
||
|
||
When one wants to match a literal backslash, it must be escaped in the regular
|
||
expression. With raw string notation, this means ``r"\\"``. Without raw string
|
||
notation, one must use ``"\\\\"``, making the following lines of code
|
||
functionally identical::
|
||
|
||
>>> re.match(r"\\", r"\\")
|
||
<re.Match object; span=(0, 1), match='\\'>
|
||
>>> re.match("\\\\", r"\\")
|
||
<re.Match object; span=(0, 1), match='\\'>
|
||
|
||
|
||
Writing a Tokenizer
|
||
^^^^^^^^^^^^^^^^^^^
|
||
|
||
A `tokenizer or scanner <https://en.wikipedia.org/wiki/Lexical_analysis>`_
|
||
analyzes a string to categorize groups of characters. This is a useful first
|
||
step in writing a compiler or interpreter.
|
||
|
||
The text categories are specified with regular expressions. The technique is
|
||
to combine those into a single master regular expression and to loop over
|
||
successive matches::
|
||
|
||
import collections
|
||
import re
|
||
|
||
Token = collections.namedtuple('Token', ['type', 'value', 'line', 'column'])
|
||
|
||
def tokenize(code):
|
||
keywords = {'IF', 'THEN', 'ENDIF', 'FOR', 'NEXT', 'GOSUB', 'RETURN'}
|
||
token_specification = [
|
||
('NUMBER', r'\d+(\.\d*)?'), # Integer or decimal number
|
||
('ASSIGN', r':='), # Assignment operator
|
||
('END', r';'), # Statement terminator
|
||
('ID', r'[A-Za-z]+'), # Identifiers
|
||
('OP', r'[+\-*/]'), # Arithmetic operators
|
||
('NEWLINE', r'\n'), # Line endings
|
||
('SKIP', r'[ \t]+'), # Skip over spaces and tabs
|
||
('MISMATCH', r'.'), # Any other character
|
||
]
|
||
tok_regex = '|'.join('(?P<%s>%s)' % pair for pair in token_specification)
|
||
line_num = 1
|
||
line_start = 0
|
||
for mo in re.finditer(tok_regex, code):
|
||
kind = mo.lastgroup
|
||
value = mo.group()
|
||
column = mo.start() - line_start
|
||
if kind == 'NUMBER':
|
||
value = float(value) if '.' in value else int(value)
|
||
elif kind == 'ID' and value in keywords:
|
||
kind = value
|
||
elif kind == 'NEWLINE':
|
||
line_start = mo.end()
|
||
line_num += 1
|
||
continue
|
||
elif kind == 'SKIP':
|
||
continue
|
||
elif kind == 'MISMATCH':
|
||
raise RuntimeError(f'{value!r} unexpected on line {line_num}')
|
||
yield Token(kind, value, line_num, column)
|
||
|
||
statements = '''
|
||
IF quantity THEN
|
||
total := total + price * quantity;
|
||
tax := price * 0.05;
|
||
ENDIF;
|
||
'''
|
||
|
||
for token in tokenize(statements):
|
||
print(token)
|
||
|
||
The tokenizer produces the following output::
|
||
|
||
Token(type='IF', value='IF', line=2, column=4)
|
||
Token(type='ID', value='quantity', line=2, column=7)
|
||
Token(type='THEN', value='THEN', line=2, column=16)
|
||
Token(type='ID', value='total', line=3, column=8)
|
||
Token(type='ASSIGN', value=':=', line=3, column=14)
|
||
Token(type='ID', value='total', line=3, column=17)
|
||
Token(type='OP', value='+', line=3, column=23)
|
||
Token(type='ID', value='price', line=3, column=25)
|
||
Token(type='OP', value='*', line=3, column=31)
|
||
Token(type='ID', value='quantity', line=3, column=33)
|
||
Token(type='END', value=';', line=3, column=41)
|
||
Token(type='ID', value='tax', line=4, column=8)
|
||
Token(type='ASSIGN', value=':=', line=4, column=12)
|
||
Token(type='ID', value='price', line=4, column=15)
|
||
Token(type='OP', value='*', line=4, column=21)
|
||
Token(type='NUMBER', value=0.05, line=4, column=23)
|
||
Token(type='END', value=';', line=4, column=27)
|
||
Token(type='ENDIF', value='ENDIF', line=5, column=4)
|
||
Token(type='END', value=';', line=5, column=9)
|
||
|
||
|
||
.. [Frie09] Friedl, Jeffrey. Mastering Regular Expressions. 3rd ed., O'Reilly
|
||
Media, 2009. The third edition of the book no longer covers Python at all,
|
||
but the first edition covered writing good regular expression patterns in
|
||
great detail.
|