mirror of https://github.com/python/cpython
685 lines
26 KiB
TeX
685 lines
26 KiB
TeX
\chapter{Lexical analysis\label{lexical}}
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A Python program is read by a \emph{parser}. Input to the parser is a
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stream of \emph{tokens}, generated by the \emph{lexical analyzer}. This
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chapter describes how the lexical analyzer breaks a file into tokens.
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\index{lexical analysis}
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\index{parser}
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\index{token}
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Python uses the 7-bit \ASCII{} character set for program text.
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\versionadded[An encoding declaration can be used to indicate that
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string literals and comments use an encoding different from ASCII.]{2.3}
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For compatibility with older versions, Python only warns if it finds
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8-bit characters; those warnings should be corrected by either declaring
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an explicit encoding, or using escape sequences if those bytes are binary
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data, instead of characters.
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The run-time character set depends on the I/O devices connected to the
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program but is generally a superset of \ASCII.
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\strong{Future compatibility note:} It may be tempting to assume that the
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character set for 8-bit characters is ISO Latin-1 (an \ASCII{}
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superset that covers most western languages that use the Latin
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alphabet), but it is possible that in the future Unicode text editors
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will become common. These generally use the UTF-8 encoding, which is
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also an \ASCII{} superset, but with very different use for the
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characters with ordinals 128-255. While there is no consensus on this
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subject yet, it is unwise to assume either Latin-1 or UTF-8, even
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though the current implementation appears to favor Latin-1. This
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applies both to the source character set and the run-time character
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set.
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\section{Line structure\label{line-structure}}
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A Python program is divided into a number of \emph{logical lines}.
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\index{line structure}
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\subsection{Logical lines\label{logical}}
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The end of
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a logical line is represented by the token NEWLINE. Statements cannot
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cross logical line boundaries except where NEWLINE is allowed by the
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syntax (e.g., between statements in compound statements).
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A logical line is constructed from one or more \emph{physical lines}
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by following the explicit or implicit \emph{line joining} rules.
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\index{logical line}
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\index{physical line}
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\index{line joining}
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\index{NEWLINE token}
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\subsection{Physical lines\label{physical}}
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A physical line ends in whatever the current platform's convention is
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for terminating lines. On \UNIX, this is the \ASCII{} LF (linefeed)
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character. On Windows, it is the \ASCII{} sequence CR LF (return
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followed by linefeed). On Macintosh, it is the \ASCII{} CR (return)
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character.
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\subsection{Comments\label{comments}}
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A comment starts with a hash character (\code{\#}) that is not part of
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a string literal, and ends at the end of the physical line. A comment
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signifies the end of the logical line unless the implicit line joining
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rules are invoked.
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Comments are ignored by the syntax; they are not tokens.
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\index{comment}
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\index{hash character}
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\subsection{Encoding declarations\label{encodings}}
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If a comment in the first or second line of the Python script matches
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the regular expression \regexp{coding[=:]\e s*([\e w-_.]+)}, this comment is
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processed as an encoding declaration; the first group of this
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expression names the encoding of the source code file. The recommended
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forms of this expression are
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\begin{verbatim}
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# -*- coding: <encoding-name> -*-
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\end{verbatim}
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which is recognized also by GNU Emacs, and
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\begin{verbatim}
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# vim:fileencoding=<encoding-name>
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\end{verbatim}
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which is recognized by Bram Moolenar's VIM. In addition, if the first
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bytes of the file are the UTF-8 byte-order mark
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(\code{'\e xef\e xbb\e xbf'}), the declared file encoding is UTF-8
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(this is supported, among others, by Microsoft's \program{notepad}).
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If an encoding is declared, the encoding name must be recognized by
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Python. % XXX there should be a list of supported encodings.
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The encoding is used for all lexical analysis, in particular to find
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the end of a string, and to interpret the contents of Unicode literals.
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String literals are converted to Unicode for syntactical analysis,
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then converted back to their original encoding before interpretation
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starts. The encoding declaration must appear on a line of its own.
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\subsection{Explicit line joining\label{explicit-joining}}
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Two or more physical lines may be joined into logical lines using
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backslash characters (\code{\e}), as follows: when a physical line ends
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in a backslash that is not part of a string literal or comment, it is
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joined with the following forming a single logical line, deleting the
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backslash and the following end-of-line character. For example:
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\index{physical line}
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\index{line joining}
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\index{line continuation}
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\index{backslash character}
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%
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\begin{verbatim}
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if 1900 < year < 2100 and 1 <= month <= 12 \
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and 1 <= day <= 31 and 0 <= hour < 24 \
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and 0 <= minute < 60 and 0 <= second < 60: # Looks like a valid date
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return 1
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\end{verbatim}
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A line ending in a backslash cannot carry a comment. A backslash does
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not continue a comment. A backslash does not continue a token except
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for string literals (i.e., tokens other than string literals cannot be
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split across physical lines using a backslash). A backslash is
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illegal elsewhere on a line outside a string literal.
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\subsection{Implicit line joining\label{implicit-joining}}
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Expressions in parentheses, square brackets or curly braces can be
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split over more than one physical line without using backslashes.
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For example:
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\begin{verbatim}
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month_names = ['Januari', 'Februari', 'Maart', # These are the
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'April', 'Mei', 'Juni', # Dutch names
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'Juli', 'Augustus', 'September', # for the months
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'Oktober', 'November', 'December'] # of the year
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\end{verbatim}
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Implicitly continued lines can carry comments. The indentation of the
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continuation lines is not important. Blank continuation lines are
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allowed. There is no NEWLINE token between implicit continuation
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lines. Implicitly continued lines can also occur within triple-quoted
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strings (see below); in that case they cannot carry comments.
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\subsection{Blank lines \label{blank-lines}}
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\index{blank line}
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A logical line that contains only spaces, tabs, formfeeds and possibly
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a comment, is ignored (i.e., no NEWLINE token is generated). During
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interactive input of statements, handling of a blank line may differ
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depending on the implementation of the read-eval-print loop. In the
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standard implementation, an entirely blank logical line (i.e.\ one
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containing not even whitespace or a comment) terminates a multi-line
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statement.
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\subsection{Indentation\label{indentation}}
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Leading whitespace (spaces and tabs) at the beginning of a logical
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line is used to compute the indentation level of the line, which in
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turn is used to determine the grouping of statements.
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\index{indentation}
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\index{whitespace}
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\index{leading whitespace}
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\index{space}
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\index{tab}
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\index{grouping}
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\index{statement grouping}
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First, tabs are replaced (from left to right) by one to eight spaces
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such that the total number of characters up to and including the
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replacement is a multiple of
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eight (this is intended to be the same rule as used by \UNIX). The
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total number of spaces preceding the first non-blank character then
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determines the line's indentation. Indentation cannot be split over
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multiple physical lines using backslashes; the whitespace up to the
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first backslash determines the indentation.
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\strong{Cross-platform compatibility note:} because of the nature of
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text editors on non-UNIX platforms, it is unwise to use a mixture of
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spaces and tabs for the indentation in a single source file.
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A formfeed character may be present at the start of the line; it will
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be ignored for the indentation calculations above. Formfeed
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characters occurring elsewhere in the leading whitespace have an
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undefined effect (for instance, they may reset the space count to
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zero).
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The indentation levels of consecutive lines are used to generate
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INDENT and DEDENT tokens, using a stack, as follows.
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\index{INDENT token}
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\index{DEDENT token}
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Before the first line of the file is read, a single zero is pushed on
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the stack; this will never be popped off again. The numbers pushed on
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the stack will always be strictly increasing from bottom to top. At
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the beginning of each logical line, the line's indentation level is
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compared to the top of the stack. If it is equal, nothing happens.
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If it is larger, it is pushed on the stack, and one INDENT token is
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generated. If it is smaller, it \emph{must} be one of the numbers
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occurring on the stack; all numbers on the stack that are larger are
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popped off, and for each number popped off a DEDENT token is
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generated. At the end of the file, a DEDENT token is generated for
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each number remaining on the stack that is larger than zero.
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Here is an example of a correctly (though confusingly) indented piece
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of Python code:
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\begin{verbatim}
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def perm(l):
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# Compute the list of all permutations of l
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if len(l) <= 1:
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return [l]
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r = []
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for i in range(len(l)):
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s = l[:i] + l[i+1:]
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p = perm(s)
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for x in p:
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r.append(l[i:i+1] + x)
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return r
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\end{verbatim}
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The following example shows various indentation errors:
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\begin{verbatim}
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def perm(l): # error: first line indented
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for i in range(len(l)): # error: not indented
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s = l[:i] + l[i+1:]
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p = perm(l[:i] + l[i+1:]) # error: unexpected indent
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for x in p:
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r.append(l[i:i+1] + x)
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return r # error: inconsistent dedent
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\end{verbatim}
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(Actually, the first three errors are detected by the parser; only the
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last error is found by the lexical analyzer --- the indentation of
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\code{return r} does not match a level popped off the stack.)
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\subsection{Whitespace between tokens\label{whitespace}}
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Except at the beginning of a logical line or in string literals, the
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whitespace characters space, tab and formfeed can be used
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interchangeably to separate tokens. Whitespace is needed between two
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tokens only if their concatenation could otherwise be interpreted as a
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different token (e.g., ab is one token, but a b is two tokens).
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\section{Other tokens\label{other-tokens}}
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Besides NEWLINE, INDENT and DEDENT, the following categories of tokens
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exist: \emph{identifiers}, \emph{keywords}, \emph{literals},
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\emph{operators}, and \emph{delimiters}.
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Whitespace characters (other than line terminators, discussed earlier)
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are not tokens, but serve to delimit tokens.
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Where
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ambiguity exists, a token comprises the longest possible string that
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forms a legal token, when read from left to right.
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\section{Identifiers and keywords\label{identifiers}}
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Identifiers (also referred to as \emph{names}) are described by the following
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lexical definitions:
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\index{identifier}
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\index{name}
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\begin{productionlist}
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\production{identifier}
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{(\token{letter}|"_") (\token{letter} | \token{digit} | "_")*}
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\production{letter}
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{\token{lowercase} | \token{uppercase}}
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\production{lowercase}
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{"a"..."z"}
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\production{uppercase}
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{"A"..."Z"}
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\production{digit}
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{"0"..."9"}
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\end{productionlist}
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Identifiers are unlimited in length. Case is significant.
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\subsection{Keywords\label{keywords}}
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The following identifiers are used as reserved words, or
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\emph{keywords} of the language, and cannot be used as ordinary
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identifiers. They must be spelled exactly as written here:%
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\index{keyword}%
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\index{reserved word}
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\begin{verbatim}
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and del for is raise
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assert elif from lambda return
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break else global not try
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class except if or while
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continue exec import pass yield
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def finally in print
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\end{verbatim}
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% When adding keywords, use reswords.py for reformatting
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Note that although the identifier \code{as} can be used as part of the
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syntax of \keyword{import} statements, it is not currently a reserved
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word.
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In some future version of Python, the identifiers \code{as} and
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\code{None} will both become keywords.
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\subsection{Reserved classes of identifiers\label{id-classes}}
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Certain classes of identifiers (besides keywords) have special
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meanings. These are:
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\begin{tableiii}{l|l|l}{code}{Form}{Meaning}{Notes}
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\lineiii{_*}{Not imported by \samp{from \var{module} import *}}{(1)}
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\lineiii{__*__}{System-defined name}{}
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\lineiii{__*}{Class-private name mangling}{}
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\end{tableiii}
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(XXX need section references here.)
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Note:
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\begin{description}
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\item[(1)] The special identifier \samp{_} is used in the interactive
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interpreter to store the result of the last evaluation; it is stored
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in the \module{__builtin__} module. When not in interactive mode,
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\samp{_} has no special meaning and is not defined.
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\end{description}
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\section{Literals\label{literals}}
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Literals are notations for constant values of some built-in types.
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\index{literal}
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\index{constant}
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\subsection{String literals\label{strings}}
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String literals are described by the following lexical definitions:
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\index{string literal}
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\index{ASCII@\ASCII}
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\begin{productionlist}
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\production{stringliteral}
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{[\token{stringprefix}](\token{shortstring} | \token{longstring})}
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\production{stringprefix}
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{"r" | "u" | "ur" | "R" | "U" | "UR" | "Ur" | "uR"}
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\production{shortstring}
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{"'" \token{shortstringitem}* "'"
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| '"' \token{shortstringitem}* '"'}
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\production{longstring}
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{"'''" \token{longstringitem}* "'''"}
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\productioncont{| '"""' \token{longstringitem}* '"""'}
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\production{shortstringitem}
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{\token{shortstringchar} | \token{escapeseq}}
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\production{longstringitem}
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{\token{longstringchar} | \token{escapeseq}}
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\production{shortstringchar}
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{<any ASCII character except "\e" or newline or the quote>}
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\production{longstringchar}
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{<any ASCII character except "\e">}
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\production{escapeseq}
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{"\e" <any ASCII character>}
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\end{productionlist}
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One syntactic restriction not indicated by these productions is that
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whitespace is not allowed between the \grammartoken{stringprefix} and
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the rest of the string literal.
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\index{triple-quoted string}
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\index{Unicode Consortium}
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\index{string!Unicode}
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In plain English: String literals can be enclosed in matching single
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quotes (\code{'}) or double quotes (\code{"}). They can also be
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enclosed in matching groups of three single or double quotes (these
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are generally referred to as \emph{triple-quoted strings}). The
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backslash (\code{\e}) character is used to escape characters that
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otherwise have a special meaning, such as newline, backslash itself,
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or the quote character. String literals may optionally be prefixed
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with a letter \character{r} or \character{R}; such strings are called
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\dfn{raw strings}\index{raw string} and use different rules for interpreting
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backslash escape sequences. A prefix of \character{u} or \character{U}
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makes the string a Unicode string. Unicode strings use the Unicode character
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set as defined by the Unicode Consortium and ISO~10646. Some additional
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escape sequences, described below, are available in Unicode strings.
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The two prefix characters may be combined; in this case, \character{u} must
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appear before \character{r}.
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In triple-quoted strings,
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unescaped newlines and quotes are allowed (and are retained), except
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that three unescaped quotes in a row terminate the string. (A
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``quote'' is the character used to open the string, i.e. either
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\code{'} or \code{"}.)
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Unless an \character{r} or \character{R} prefix is present, escape
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sequences in strings are interpreted according to rules similar
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to those used by Standard C. The recognized escape sequences are:
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\index{physical line}
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\index{escape sequence}
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\index{Standard C}
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\index{C}
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\begin{tableiii}{l|l|c}{code}{Escape Sequence}{Meaning}{Notes}
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\lineiii{\e\var{newline}} {Ignored}{}
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\lineiii{\e\e} {Backslash (\code{\e})}{}
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\lineiii{\e'} {Single quote (\code{'})}{}
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\lineiii{\e"} {Double quote (\code{"})}{}
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\lineiii{\e a} {\ASCII{} Bell (BEL)}{}
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\lineiii{\e b} {\ASCII{} Backspace (BS)}{}
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\lineiii{\e f} {\ASCII{} Formfeed (FF)}{}
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\lineiii{\e n} {\ASCII{} Linefeed (LF)}{}
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\lineiii{\e N\{\var{name}\}}
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{Character named \var{name} in the Unicode database (Unicode only)}{}
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\lineiii{\e r} {\ASCII{} Carriage Return (CR)}{}
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\lineiii{\e t} {\ASCII{} Horizontal Tab (TAB)}{}
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\lineiii{\e u\var{xxxx}}
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{Character with 16-bit hex value \var{xxxx} (Unicode only)}{(1)}
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\lineiii{\e U\var{xxxxxxxx}}
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{Character with 32-bit hex value \var{xxxxxxxx} (Unicode only)}{(2)}
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\lineiii{\e v} {\ASCII{} Vertical Tab (VT)}{}
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\lineiii{\e\var{ooo}} {\ASCII{} character with octal value \var{ooo}}{(3)}
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\lineiii{\e x\var{hh}} {\ASCII{} character with hex value \var{hh}}{(4)}
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\end{tableiii}
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\index{ASCII@\ASCII}
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\noindent
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Notes:
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\begin{itemize}
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\item[(1)]
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Individual code units which form parts of a surrogate pair can be
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encoded using this escape sequence.
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\item[(2)]
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Any Unicode character can be encoded this way, but characters
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outside the Basic Multilingual Plane (BMP) will be encoded using a
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surrogate pair if Python is compiled to use 16-bit code units (the
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default). Individual code units which form parts of a surrogate
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pair can be encoded using this escape sequence.
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\item[(3)]
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As in Standard C, up to three octal digits are accepted.
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\item[(4)]
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Unlike in Standard C, at most two hex digits are accepted.
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\end{itemize}
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Unlike Standard \index{unrecognized escape sequence}C,
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all unrecognized escape sequences are left in the string unchanged,
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i.e., \emph{the backslash is left in the string}. (This behavior is
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useful when debugging: if an escape sequence is mistyped, the
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resulting output is more easily recognized as broken.) It is also
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important to note that the escape sequences marked as ``(Unicode
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only)'' in the table above fall into the category of unrecognized
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escapes for non-Unicode string literals.
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When an \character{r} or \character{R} prefix is present, a character
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following a backslash is included in the string without change, and \emph{all
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backslashes are left in the string}. For example, the string literal
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\code{r"\e n"} consists of two characters: a backslash and a lowercase
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\character{n}. String quotes can be escaped with a backslash, but the
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backslash remains in the string; for example, \code{r"\e""} is a valid string
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literal consisting of two characters: a backslash and a double quote;
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\code{r"\e"} is not a valid string literal (even a raw string cannot
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end in an odd number of backslashes). Specifically, \emph{a raw
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string cannot end in a single backslash} (since the backslash would
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escape the following quote character). Note also that a single
|
|
backslash followed by a newline is interpreted as those two characters
|
|
as part of the string, \emph{not} as a line continuation.
|
|
|
|
When an \character{r} or \character{R} prefix is used in conjunction
|
|
with a \character{u} or \character{U} prefix, then the \code{\e uXXXX}
|
|
escape sequence is processed while \emph{all other backslashes are
|
|
left in the string}. For example, the string literal
|
|
\code{ur"\e{}u0062\e n"} consists of three Unicode characters: `LATIN
|
|
SMALL LETTER B', `REVERSE SOLIDUS', and `LATIN SMALL LETTER N'.
|
|
Backslashes can be escaped with a preceding backslash; however, both
|
|
remain in the string. As a result, \code{\e uXXXX} escape sequences
|
|
are only recognized when there are an odd number of backslashes.
|
|
|
|
\subsection{String literal concatenation\label{string-catenation}}
|
|
|
|
Multiple adjacent string literals (delimited by whitespace), possibly
|
|
using different quoting conventions, are allowed, and their meaning is
|
|
the same as their concatenation. Thus, \code{"hello" 'world'} is
|
|
equivalent to \code{"helloworld"}. This feature can be used to reduce
|
|
the number of backslashes needed, to split long strings conveniently
|
|
across long lines, or even to add comments to parts of strings, for
|
|
example:
|
|
|
|
\begin{verbatim}
|
|
re.compile("[A-Za-z_]" # letter or underscore
|
|
"[A-Za-z0-9_]*" # letter, digit or underscore
|
|
)
|
|
\end{verbatim}
|
|
|
|
Note that this feature is defined at the syntactical level, but
|
|
implemented at compile time. The `+' operator must be used to
|
|
concatenate string expressions at run time. Also note that literal
|
|
concatenation can use different quoting styles for each component
|
|
(even mixing raw strings and triple quoted strings).
|
|
|
|
|
|
\subsection{Numeric literals\label{numbers}}
|
|
|
|
There are four types of numeric literals: plain integers, long
|
|
integers, floating point numbers, and imaginary numbers. There are no
|
|
complex literals (complex numbers can be formed by adding a real
|
|
number and an imaginary number).
|
|
\index{number}
|
|
\index{numeric literal}
|
|
\index{integer literal}
|
|
\index{plain integer literal}
|
|
\index{long integer literal}
|
|
\index{floating point literal}
|
|
\index{hexadecimal literal}
|
|
\index{octal literal}
|
|
\index{decimal literal}
|
|
\index{imaginary literal}
|
|
\index{complex!literal}
|
|
|
|
Note that numeric literals do not include a sign; a phrase like
|
|
\code{-1} is actually an expression composed of the unary operator
|
|
`\code{-}' and the literal \code{1}.
|
|
|
|
|
|
\subsection{Integer and long integer literals\label{integers}}
|
|
|
|
Integer and long integer literals are described by the following
|
|
lexical definitions:
|
|
|
|
\begin{productionlist}
|
|
\production{longinteger}
|
|
{\token{integer} ("l" | "L")}
|
|
\production{integer}
|
|
{\token{decimalinteger} | \token{octinteger} | \token{hexinteger}}
|
|
\production{decimalinteger}
|
|
{\token{nonzerodigit} \token{digit}* | "0"}
|
|
\production{octinteger}
|
|
{"0" \token{octdigit}+}
|
|
\production{hexinteger}
|
|
{"0" ("x" | "X") \token{hexdigit}+}
|
|
\production{nonzerodigit}
|
|
{"1"..."9"}
|
|
\production{octdigit}
|
|
{"0"..."7"}
|
|
\production{hexdigit}
|
|
{\token{digit} | "a"..."f" | "A"..."F"}
|
|
\end{productionlist}
|
|
|
|
Although both lower case \character{l} and upper case \character{L} are
|
|
allowed as suffix for long integers, it is strongly recommended to always
|
|
use \character{L}, since the letter \character{l} looks too much like the
|
|
digit \character{1}.
|
|
|
|
Plain integer decimal literals must be at most 2147483647 (i.e., the
|
|
largest positive integer, using 32-bit arithmetic). Plain octal and
|
|
hexadecimal literals may be as large as 4294967295, but values larger
|
|
than 2147483647 are converted to a negative value by subtracting
|
|
4294967296. There is no limit for long integer literals apart from
|
|
what can be stored in available memory.
|
|
|
|
Some examples of plain and long integer literals:
|
|
|
|
\begin{verbatim}
|
|
7 2147483647 0177 0x80000000
|
|
3L 79228162514264337593543950336L 0377L 0x100000000L
|
|
\end{verbatim}
|
|
|
|
|
|
\subsection{Floating point literals\label{floating}}
|
|
|
|
Floating point literals are described by the following lexical
|
|
definitions:
|
|
|
|
\begin{productionlist}
|
|
\production{floatnumber}
|
|
{\token{pointfloat} | \token{exponentfloat}}
|
|
\production{pointfloat}
|
|
{[\token{intpart}] \token{fraction} | \token{intpart} "."}
|
|
\production{exponentfloat}
|
|
{(\token{intpart} | \token{pointfloat})
|
|
\token{exponent}}
|
|
\production{intpart}
|
|
{\token{digit}+}
|
|
\production{fraction}
|
|
{"." \token{digit}+}
|
|
\production{exponent}
|
|
{("e" | "E") ["+" | "-"] \token{digit}+}
|
|
\end{productionlist}
|
|
|
|
Note that the integer and exponent parts of floating point numbers
|
|
can look like octal integers, but are interpreted using radix 10. For
|
|
example, \samp{077e010} is legal, and denotes the same number
|
|
as \samp{77e10}.
|
|
The allowed range of floating point literals is
|
|
implementation-dependent.
|
|
Some examples of floating point literals:
|
|
|
|
\begin{verbatim}
|
|
3.14 10. .001 1e100 3.14e-10 0e0
|
|
\end{verbatim}
|
|
|
|
Note that numeric literals do not include a sign; a phrase like
|
|
\code{-1} is actually an expression composed of the operator
|
|
\code{-} and the literal \code{1}.
|
|
|
|
|
|
\subsection{Imaginary literals\label{imaginary}}
|
|
|
|
Imaginary literals are described by the following lexical definitions:
|
|
|
|
\begin{productionlist}
|
|
\production{imagnumber}{(\token{floatnumber} | \token{intpart}) ("j" | "J")}
|
|
\end{productionlist}
|
|
|
|
An imaginary literal yields a complex number with a real part of
|
|
0.0. Complex numbers are represented as a pair of floating point
|
|
numbers and have the same restrictions on their range. To create a
|
|
complex number with a nonzero real part, add a floating point number
|
|
to it, e.g., \code{(3+4j)}. Some examples of imaginary literals:
|
|
|
|
\begin{verbatim}
|
|
3.14j 10.j 10j .001j 1e100j 3.14e-10j
|
|
\end{verbatim}
|
|
|
|
|
|
\section{Operators\label{operators}}
|
|
|
|
The following tokens are operators:
|
|
\index{operators}
|
|
|
|
\begin{verbatim}
|
|
+ - * ** / // %
|
|
<< >> & | ^ ~
|
|
< > <= >= == != <>
|
|
\end{verbatim}
|
|
|
|
The comparison operators \code{<>} and \code{!=} are alternate
|
|
spellings of the same operator. \code{!=} is the preferred spelling;
|
|
\code{<>} is obsolescent.
|
|
|
|
|
|
\section{Delimiters\label{delimiters}}
|
|
|
|
The following tokens serve as delimiters in the grammar:
|
|
\index{delimiters}
|
|
|
|
\begin{verbatim}
|
|
( ) [ ] { }
|
|
, : . ` = ;
|
|
+= -= *= /= //= %=
|
|
&= |= ^= >>= <<= **=
|
|
\end{verbatim}
|
|
|
|
The period can also occur in floating-point and imaginary literals. A
|
|
sequence of three periods has a special meaning as an ellipsis in slices.
|
|
The second half of the list, the augmented assignment operators, serve
|
|
lexically as delimiters, but also perform an operation.
|
|
|
|
The following printing \ASCII{} characters have special meaning as part
|
|
of other tokens or are otherwise significant to the lexical analyzer:
|
|
|
|
\begin{verbatim}
|
|
' " # \
|
|
\end{verbatim}
|
|
|
|
The following printing \ASCII{} characters are not used in Python. Their
|
|
occurrence outside string literals and comments is an unconditional
|
|
error:
|
|
\index{ASCII@\ASCII}
|
|
|
|
\begin{verbatim}
|
|
@ $ ?
|
|
\end{verbatim}
|