367 lines
16 KiB
TeX
367 lines
16 KiB
TeX
\section{Built-in Module \module{regex}}
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\label{module-regex}
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\bimodindex{regex}
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This module provides regular expression matching operations similar to
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those found in Emacs.
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\strong{Obsolescence note:}
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This module is obsolete as of Python version 1.5; it is still being
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maintained because much existing code still uses it. All new code in
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need of regular expressions should use the new
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\code{re}\refstmodindex{re} module, which supports the more powerful
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and regular Perl-style regular expressions. Existing code should be
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converted. The standard library module
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\code{reconvert}\refstmodindex{reconvert} helps in converting
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\code{regex} style regular expressions to \code{re}\refstmodindex{re}
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style regular expressions. (For more conversion help, see Andrew
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Kuchling's\index{Kuchling, Andrew} ``\module{regex-to-re} HOWTO'' at
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\url{http://www.python.org/doc/howto/regex-to-re/}.)
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By default the patterns are Emacs-style regular expressions
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(with one exception). There is
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a way to change the syntax to match that of several well-known
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\UNIX{} utilities. The exception is that Emacs' \samp{\e s}
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pattern is not supported, since the original implementation references
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the Emacs syntax tables.
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This module is 8-bit clean: both patterns and strings may contain null
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bytes and characters whose high bit is set.
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\strong{Please note:} There is a little-known fact about Python string
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literals which means that you don't usually have to worry about
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doubling backslashes, even though they are used to escape special
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characters in string literals as well as in regular expressions. This
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is because Python doesn't remove backslashes from string literals if
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they are followed by an unrecognized escape character.
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\emph{However}, if you want to include a literal \dfn{backslash} in a
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regular expression represented as a string literal, you have to
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\emph{quadruple} it or enclose it in a singleton character class.
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E.g.\ to extract \LaTeX\ \samp{\e section\{{\rm
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\ldots}\}} headers from a document, you can use this pattern:
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\code{'[\e ]section\{\e (.*\e )\}'}. \emph{Another exception:}
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the escape sequece \samp{\e b} is significant in string literals
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(where it means the ASCII bell character) as well as in Emacs regular
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expressions (where it stands for a word boundary), so in order to
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search for a word boundary, you should use the pattern \code{'\e \e b'}.
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Similarly, a backslash followed by a digit 0-7 should be doubled to
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avoid interpretation as an octal escape.
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\subsection{Regular Expressions}
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A regular expression (or RE) specifies a set of strings that matches
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it; the functions in this module let you check if a particular string
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matches a given regular expression (or if a given regular expression
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matches a particular string, which comes down to the same thing).
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Regular expressions can be concatenated to form new regular
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expressions; if \emph{A} and \emph{B} are both regular expressions,
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then \emph{AB} is also an regular expression. If a string \emph{p}
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matches A and another string \emph{q} matches B, the string \emph{pq}
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will match AB. Thus, complex expressions can easily be constructed
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from simpler ones like the primitives described here. For details of
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the theory and implementation of regular expressions, consult almost
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any textbook about compiler construction.
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% XXX The reference could be made more specific, say to
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% "Compilers: Principles, Techniques and Tools", by Alfred V. Aho,
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% Ravi Sethi, and Jeffrey D. Ullman, or some FA text.
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A brief explanation of the format of regular expressions follows.
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Regular expressions can contain both special and ordinary characters.
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Ordinary characters, like '\code{A}', '\code{a}', or '\code{0}', are
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the simplest regular expressions; they simply match themselves. You
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can concatenate ordinary characters, so '\code{last}' matches the
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characters 'last'. (In the rest of this section, we'll write RE's in
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\code{this special font}, usually without quotes, and strings to be
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matched 'in single quotes'.)
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Special characters either stand for classes of ordinary characters, or
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affect how the regular expressions around them are interpreted.
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The special characters are:
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\begin{itemize}
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\item[\code{.}] (Dot.) Matches any character except a newline.
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\item[\code{\^}] (Caret.) Matches the start of the string.
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\item[\code{\$}] Matches the end of the string.
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\code{foo} matches both 'foo' and 'foobar', while the regular
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expression '\code{foo\$}' matches only 'foo'.
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\item[\code{*}] Causes the resulting RE to
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match 0 or more repetitions of the preceding RE. \code{ab*} will
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match 'a', 'ab', or 'a' followed by any number of 'b's.
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\item[\code{+}] Causes the
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resulting RE to match 1 or more repetitions of the preceding RE.
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\code{ab+} will match 'a' followed by any non-zero number of 'b's; it
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will not match just 'a'.
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\item[\code{?}] Causes the resulting RE to
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match 0 or 1 repetitions of the preceding RE. \code{ab?} will
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match either 'a' or 'ab'.
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\item[\code{\e}] Either escapes special characters (permitting you to match
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characters like '*?+\&\$'), or signals a special sequence; special
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sequences are discussed below. Remember that Python also uses the
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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
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subsequent character are included in the resulting string. However,
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if Python would recognize the resulting sequence, the backslash should
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be repeated twice.
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\item[\code{[]}] Used to indicate a set of characters. Characters can
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be listed individually, or a range is indicated by giving two
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characters and separating them by a '-'. Special characters are
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not active inside sets. For example, \code{[akm\$]}
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will match any of the characters 'a', 'k', 'm', or '\$'; \code{[a-z]} will
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match any lowercase letter.
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If you want to include a \code{]} inside a
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set, it must be the first character of the set; to include a \code{-},
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place it as the first or last character.
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Characters \emph{not} within a range can be matched by including a
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\code{\^} as the first character of the set; \code{\^} elsewhere will
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simply match the '\code{\^}' character.
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\end{itemize}
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The special sequences consist of '\code{\e}' and a character
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from the list below. If the ordinary character is not on the list,
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then the resulting RE will match the second character. For example,
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\code{\e\$} matches the character '\$'. Ones where the backslash
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should be doubled in string literals are indicated.
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\begin{itemize}
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\item[\code{\e|}]\code{A\e|B}, where A and B can be arbitrary REs,
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creates a regular expression that will match either A or B. This can
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be used inside groups (see below) as well.
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%
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\item[\code{\e( \e)}] Indicates the start and end of a group; the
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contents of a group can be matched later in the string with the
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\code{\e [1-9]} special sequence, described next.
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\end{itemize}
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\begin{fulllineitems}
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\item[\code{\e \e 1, ... \e \e 7, \e 8, \e 9}]
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Matches the contents of the group of the same
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number. For example, \code{\e (.+\e ) \e \e 1} matches 'the the' or
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'55 55', but not 'the end' (note the space after the group). This
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special sequence can only be used to match one of the first 9 groups;
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groups with higher numbers can be matched using the \code{\e v}
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sequence. (\code{\e 8} and \code{\e 9} don't need a double backslash
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because they are not octal digits.)
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\end{fulllineitems}
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\begin{itemize}
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\item[\code{\e \e b}] Matches the empty string, but only at the
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beginning or end of a word. A word is defined as a sequence of
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alphanumeric characters, so the end of a word is indicated by
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whitespace or a non-alphanumeric character.
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%
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\item[\code{\e B}] Matches the empty string, but when it is \emph{not} at the
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beginning or end of a word.
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%
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\item[\code{\e v}] Must be followed by a two digit decimal number, and
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matches the contents of the group of the same number. The group
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number must be between 1 and 99, inclusive.
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%
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\item[\code{\e w}]Matches any alphanumeric character; this is
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equivalent to the set \code{[a-zA-Z0-9]}.
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%
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\item[\code{\e W}] Matches any non-alphanumeric character; this is
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equivalent to the set \code{[\^a-zA-Z0-9]}.
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\item[\code{\e <}] Matches the empty string, but only at the beginning of a
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word. A word is defined as a sequence of alphanumeric characters, so
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the end of a word is indicated by whitespace or a non-alphanumeric
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character.
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\item[\code{\e >}] Matches the empty string, but only at the end of a
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word.
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\item[\code{\e \e \e \e}] Matches a literal backslash.
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% In Emacs, the following two are start of buffer/end of buffer. In
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% Python they seem to be synonyms for ^$.
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\item[\code{\e `}] Like \code{\^}, this only matches at the start of the
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string.
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\item[\code{\e \e '}] Like \code{\$}, this only matches at the end of
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the string.
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% end of buffer
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\end{itemize}
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\subsection{Module Contents}
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\nodename{Contents of Module regex}
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The module defines these functions, and an exception:
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\begin{funcdesc}{match}{pattern, string}
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Return how many characters at the beginning of \var{string} match
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the regular expression \var{pattern}. Return \code{-1} if the
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string does not match the pattern (this is different from a
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zero-length match!).
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\end{funcdesc}
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\begin{funcdesc}{search}{pattern, string}
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Return the first position in \var{string} that matches the regular
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expression \var{pattern}. Return \code{-1} if no position in the string
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matches the pattern (this is different from a zero-length match
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anywhere!).
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\end{funcdesc}
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\begin{funcdesc}{compile}{pattern\optional{, translate}}
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Compile a regular expression pattern into a regular expression
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object, which can be used for matching using its \code{match()} and
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\code{search()} methods, described below. The optional argument
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\var{translate}, if present, must be a 256-character string
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indicating how characters (both of the pattern and of the strings to
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be matched) are translated before comparing them; the \var{i}-th
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element of the string gives the translation for the character with
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\ASCII{} code \var{i}. This can be used to implement
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case-insensitive matching; see the \code{casefold} data item below.
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The sequence
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\begin{verbatim}
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prog = regex.compile(pat)
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result = prog.match(str)
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\end{verbatim}
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%
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is equivalent to
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\begin{verbatim}
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result = regex.match(pat, str)
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\end{verbatim}
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but the version using \code{compile()} is more efficient when multiple
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regular expressions are used concurrently in a single program. (The
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compiled version of the last pattern passed to \code{regex.match()} or
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\code{regex.search()} is cached, so programs that use only a single
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regular expression at a time needn't worry about compiling regular
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expressions.)
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\end{funcdesc}
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\begin{funcdesc}{set_syntax}{flags}
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Set the syntax to be used by future calls to \code{compile()},
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\code{match()} and \code{search()}. (Already compiled expression
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objects are not affected.) The argument is an integer which is the
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OR of several flag bits. The return value is the previous value of
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the syntax flags. Names for the flags are defined in the standard
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module \code{regex_syntax}\refstmodindex{regex_syntax}; read the
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file \file{regex_syntax.py} for more information.
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\end{funcdesc}
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\begin{funcdesc}{get_syntax}{}
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Returns the current value of the syntax flags as an integer.
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\end{funcdesc}
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\begin{funcdesc}{symcomp}{pattern\optional{, translate}}
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This is like \code{compile()}, but supports symbolic group names: if a
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parenthesis-enclosed group begins with a group name in angular
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brackets, e.g. \code{'\e(<id>[a-z][a-z0-9]*\e)'}, the group can
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be referenced by its name in arguments to the \code{group()} method of
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the resulting compiled regular expression object, like this:
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\code{p.group('id')}. Group names may contain alphanumeric characters
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and \code{'_'} only.
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\end{funcdesc}
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\begin{excdesc}{error}
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Exception raised when a string passed to one of the functions here
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is not a valid regular expression (e.g., unmatched parentheses) or
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when some other error occurs during compilation or matching. (It is
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never an error if a string contains no match for a pattern.)
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\end{excdesc}
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\begin{datadesc}{casefold}
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A string suitable to pass as the \var{translate} argument to
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\code{compile()} to map all upper case characters to their lowercase
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equivalents.
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\end{datadesc}
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\noindent
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Compiled regular expression objects support these methods:
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\setindexsubitem{(regex method)}
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\begin{funcdesc}{match}{string\optional{, pos}}
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Return how many characters at the beginning of \var{string} match
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the compiled regular expression. Return \code{-1} if the string
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does not match the pattern (this is different from a zero-length
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match!).
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The optional second parameter, \var{pos}, gives an index in the string
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where the search is to start; it defaults to \code{0}. This is not
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completely equivalent to slicing the string; the \code{'\^'} pattern
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character matches at the real beginning of the string and at positions
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just after a newline, not necessarily at the index where the search
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is to start.
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\end{funcdesc}
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\begin{funcdesc}{search}{string\optional{, pos}}
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Return the first position in \var{string} that matches the regular
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expression \code{pattern}. Return \code{-1} if no position in the
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string matches the pattern (this is different from a zero-length
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match anywhere!).
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The optional second parameter has the same meaning as for the
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\code{match()} method.
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\end{funcdesc}
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\begin{funcdesc}{group}{index, index, ...}
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This method is only valid when the last call to the \code{match()}
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or \code{search()} method found a match. It returns one or more
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groups of the match. If there is a single \var{index} argument,
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the result is a single string; if there are multiple arguments, the
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result is a tuple with one item per argument. If the \var{index} is
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zero, the corresponding return value is the entire matching string; if
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it is in the inclusive range [1..99], it is the string matching the
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the corresponding parenthesized group (using the default syntax,
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groups are parenthesized using \code{{\e}(} and \code{{\e})}). If no
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such group exists, the corresponding result is \code{None}.
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If the regular expression was compiled by \code{symcomp()} instead of
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\code{compile()}, the \var{index} arguments may also be strings
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identifying groups by their group name.
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\end{funcdesc}
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\noindent
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Compiled regular expressions support these data attributes:
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\setindexsubitem{(regex attribute)}
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\begin{datadesc}{regs}
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When the last call to the \code{match()} or \code{search()} method found a
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match, this is a tuple of pairs of indexes corresponding to the
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beginning and end of all parenthesized groups in the pattern. Indices
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are relative to the string argument passed to \code{match()} or
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\code{search()}. The 0-th tuple gives the beginning and end or the
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whole pattern. When the last match or search failed, this is
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\code{None}.
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\end{datadesc}
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\begin{datadesc}{last}
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When the last call to the \code{match()} or \code{search()} method found a
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match, this is the string argument passed to that method. When the
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last match or search failed, this is \code{None}.
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\end{datadesc}
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\begin{datadesc}{translate}
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This is the value of the \var{translate} argument to
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\code{regex.compile()} that created this regular expression object. If
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the \var{translate} argument was omitted in the \code{regex.compile()}
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call, this is \code{None}.
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\end{datadesc}
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\begin{datadesc}{givenpat}
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The regular expression pattern as passed to \code{compile()} or
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\code{symcomp()}.
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\end{datadesc}
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\begin{datadesc}{realpat}
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The regular expression after stripping the group names for regular
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expressions compiled with \code{symcomp()}. Same as \code{givenpat}
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otherwise.
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\end{datadesc}
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\begin{datadesc}{groupindex}
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A dictionary giving the mapping from symbolic group names to numerical
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group indexes for regular expressions compiled with \code{symcomp()}.
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\code{None} otherwise.
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\end{datadesc}
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