965 lines
36 KiB
ReStructuredText
965 lines
36 KiB
ReStructuredText
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.. _lexical:
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****************
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Lexical analysis
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****************
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.. index:: lexical analysis, parser, token
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A Python program is read by a *parser*. Input to the parser is a stream of
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*tokens*, generated by the *lexical analyzer*. This chapter describes how the
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lexical analyzer breaks a file into tokens.
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Python reads program text as Unicode code points; the encoding of a source file
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can be given by an encoding declaration and defaults to UTF-8, see :pep:`3120`
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for details. If the source file cannot be decoded, a :exc:`SyntaxError` is
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raised.
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.. _line-structure:
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Line structure
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==============
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.. index:: line structure
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A Python program is divided into a number of *logical lines*.
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.. _logical-lines:
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Logical lines
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-------------
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.. index:: logical line, physical line, line joining, NEWLINE token
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The end of a logical line is represented by the token NEWLINE. Statements
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cannot cross logical line boundaries except where NEWLINE is allowed by the
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syntax (e.g., between statements in compound statements). A logical line is
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constructed from one or more *physical lines* by following the explicit or
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implicit *line joining* rules.
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.. _physical-lines:
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Physical lines
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--------------
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A physical line is a sequence of characters terminated by an end-of-line
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sequence. In source files and strings, any of the standard platform line
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termination sequences can be used - the Unix form using ASCII LF (linefeed),
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the Windows form using the ASCII sequence CR LF (return followed by linefeed),
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or the old Macintosh form using the ASCII CR (return) character. All of these
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forms can be used equally, regardless of platform. The end of input also serves
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as an implicit terminator for the final physical line.
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When embedding Python, source code strings should be passed to Python APIs using
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the standard C conventions for newline characters (the ``\n`` character,
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representing ASCII LF, is the line terminator).
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.. _comments:
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Comments
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--------
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.. index:: comment, hash character
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single: # (hash); comment
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A comment starts with a hash character (``#``) that is not part of a string
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literal, and ends at the end of the physical line. A comment signifies the end
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of the logical line unless the implicit line joining rules are invoked. Comments
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are ignored by the syntax.
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.. _encodings:
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Encoding declarations
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---------------------
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.. index:: source character set, encoding declarations (source file)
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single: # (hash); source encoding declaration
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If a comment in the first or second line of the Python script matches the
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regular expression ``coding[=:]\s*([-\w.]+)``, this comment is processed as an
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encoding declaration; the first group of this expression names the encoding of
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the source code file. The encoding declaration must appear on a line of its
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own. If it is the second line, the first line must also be a comment-only line.
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The recommended forms of an encoding expression are ::
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# -*- coding: <encoding-name> -*-
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which is recognized also by GNU Emacs, and ::
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# vim:fileencoding=<encoding-name>
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which is recognized by Bram Moolenaar's VIM.
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If no encoding declaration is found, the default encoding is UTF-8. In
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addition, if the first bytes of the file are the UTF-8 byte-order mark
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(``b'\xef\xbb\xbf'``), the declared file encoding is UTF-8 (this is supported,
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among others, by Microsoft's :program:`notepad`).
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If an encoding is declared, the encoding name must be recognized by Python. The
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encoding is used for all lexical analysis, including string literals, comments
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and identifiers.
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.. XXX there should be a list of supported encodings.
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.. _explicit-joining:
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Explicit line joining
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---------------------
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.. index:: physical line, line joining, line continuation, backslash character
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Two or more physical lines may be joined into logical lines using backslash
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characters (``\``), as follows: when a physical line ends in a backslash that is
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not part of a string literal or comment, it is joined with the following forming
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a single logical line, deleting the backslash and the following end-of-line
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character. For example::
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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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A line ending in a backslash cannot carry a comment. A backslash does not
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continue a comment. A backslash does not continue a token except for string
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literals (i.e., tokens other than string literals cannot be split across
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physical lines using a backslash). A backslash is illegal elsewhere on a line
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outside a string literal.
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.. _implicit-joining:
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Implicit line joining
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---------------------
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Expressions in parentheses, square brackets or curly braces can be split over
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more than one physical line without using backslashes. For example::
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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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Implicitly continued lines can carry comments. The indentation of the
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continuation lines is not important. Blank continuation lines are allowed.
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There is no NEWLINE token between implicit continuation lines. Implicitly
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continued lines can also occur within triple-quoted strings (see below); in that
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case they cannot carry comments.
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.. _blank-lines:
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Blank lines
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-----------
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.. index:: single: blank line
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A logical line that contains only spaces, tabs, formfeeds and possibly a
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comment, is ignored (i.e., no NEWLINE token is generated). During interactive
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input of statements, handling of a blank line may differ depending on the
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implementation of the read-eval-print loop. In the standard interactive
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interpreter, an entirely blank logical line (i.e. one containing not even
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whitespace or a comment) terminates a multi-line statement.
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.. _indentation:
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Indentation
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-----------
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.. index:: indentation, leading whitespace, space, tab, grouping, statement grouping
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Leading whitespace (spaces and tabs) at the beginning of a logical line is used
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to compute the indentation level of the line, which in turn is used to determine
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the grouping of statements.
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Tabs are replaced (from left to right) by one to eight spaces such that the
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total number of characters up to and including the replacement is a multiple of
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eight (this is intended to be the same rule as used by Unix). The total number
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of spaces preceding the first non-blank character then determines the line's
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indentation. Indentation cannot be split over multiple physical lines using
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backslashes; the whitespace up to the first backslash determines the
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indentation.
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Indentation is rejected as inconsistent if a source file mixes tabs and spaces
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in a way that makes the meaning dependent on the worth of a tab in spaces; a
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:exc:`TabError` is raised in that case.
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**Cross-platform compatibility note:** because of the nature of text editors on
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non-UNIX platforms, it is unwise to use a mixture of spaces and tabs for the
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indentation in a single source file. It should also be noted that different
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platforms may explicitly limit the maximum indentation level.
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A formfeed character may be present at the start of the line; it will be ignored
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for the indentation calculations above. Formfeed characters occurring elsewhere
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in the leading whitespace have an undefined effect (for instance, they may reset
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the space count to zero).
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.. index:: INDENT token, DEDENT token
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The indentation levels of consecutive lines are used to generate INDENT and
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DEDENT tokens, using a stack, as follows.
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Before the first line of the file is read, a single zero is pushed on the stack;
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this will never be popped off again. The numbers pushed on the stack will
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always be strictly increasing from bottom to top. At the beginning of each
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logical line, the line's indentation level is compared to the top of the stack.
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If it is equal, nothing happens. If it is larger, it is pushed on the stack, and
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one INDENT token is generated. If it is smaller, it *must* be one of the
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numbers 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 generated. At the
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end of the file, a DEDENT token is generated for each number remaining on the
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stack that is larger than zero.
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Here is an example of a correctly (though confusingly) indented piece of Python
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code::
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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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The following example shows various indentation errors::
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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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(Actually, the first three errors are detected by the parser; only the last
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error is found by the lexical analyzer --- the indentation of ``return r`` does
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not match a level popped off the stack.)
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.. _whitespace:
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Whitespace between tokens
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-------------------------
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Except at the beginning of a logical line or in string literals, the whitespace
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characters space, tab and formfeed can be used interchangeably to separate
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tokens. Whitespace is needed between two tokens only if their concatenation
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could otherwise be interpreted as a different token (e.g., ab is one token, but
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a b is two tokens).
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.. _other-tokens:
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Other tokens
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============
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Besides NEWLINE, INDENT and DEDENT, the following categories of tokens exist:
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*identifiers*, *keywords*, *literals*, *operators*, and *delimiters*. Whitespace
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characters (other than line terminators, discussed earlier) are not tokens, but
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serve to delimit tokens. Where ambiguity exists, a token comprises the longest
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possible string that forms a legal token, when read from left to right.
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.. _identifiers:
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Identifiers and keywords
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========================
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.. index:: identifier, name
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Identifiers (also referred to as *names*) are described by the following lexical
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definitions.
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The syntax of identifiers in Python is based on the Unicode standard annex
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UAX-31, with elaboration and changes as defined below; see also :pep:`3131` for
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further details.
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Within the ASCII range (U+0001..U+007F), the valid characters for identifiers
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are the same as in Python 2.x: the uppercase and lowercase letters ``A`` through
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``Z``, the underscore ``_`` and, except for the first character, the digits
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``0`` through ``9``.
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Python 3.0 introduces additional characters from outside the ASCII range (see
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:pep:`3131`). For these characters, the classification uses the version of the
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Unicode Character Database as included in the :mod:`unicodedata` module.
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Identifiers are unlimited in length. Case is significant.
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.. productionlist::
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identifier: `xid_start` `xid_continue`*
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id_start: <all characters in general categories Lu, Ll, Lt, Lm, Lo, Nl, the underscore, and characters with the Other_ID_Start property>
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id_continue: <all characters in `id_start`, plus characters in the categories Mn, Mc, Nd, Pc and others with the Other_ID_Continue property>
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xid_start: <all characters in `id_start` whose NFKC normalization is in "id_start xid_continue*">
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xid_continue: <all characters in `id_continue` whose NFKC normalization is in "id_continue*">
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The Unicode category codes mentioned above stand for:
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* *Lu* - uppercase letters
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* *Ll* - lowercase letters
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* *Lt* - titlecase letters
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* *Lm* - modifier letters
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* *Lo* - other letters
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* *Nl* - letter numbers
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* *Mn* - nonspacing marks
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* *Mc* - spacing combining marks
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* *Nd* - decimal numbers
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* *Pc* - connector punctuations
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* *Other_ID_Start* - explicit list of characters in `PropList.txt
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<http://www.unicode.org/Public/12.1.0/ucd/PropList.txt>`_ to support backwards
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compatibility
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* *Other_ID_Continue* - likewise
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All identifiers are converted into the normal form NFKC while parsing; comparison
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of identifiers is based on NFKC.
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A non-normative HTML file listing all valid identifier characters for Unicode
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4.1 can be found at
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https://www.unicode.org/Public/13.0.0/ucd/DerivedCoreProperties.txt
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.. _keywords:
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Keywords
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--------
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.. index::
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single: keyword
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single: reserved word
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The following identifiers are used as reserved words, or *keywords* of the
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language, and cannot be used as ordinary identifiers. They must be spelled
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exactly as written here:
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.. sourcecode:: text
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False await else import pass
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None break except in raise
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True class finally is return
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and continue for lambda try
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as def from nonlocal while
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assert del global not with
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async elif if or yield
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.. index::
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single: _, identifiers
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single: __, identifiers
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.. _id-classes:
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Reserved classes of identifiers
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-------------------------------
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Certain classes of identifiers (besides keywords) have special meanings. These
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classes are identified by the patterns of leading and trailing underscore
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characters:
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``_*``
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Not imported by ``from module import *``. The special identifier ``_`` is used
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in the interactive interpreter to store the result of the last evaluation; it is
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stored in the :mod:`builtins` module. When not in interactive mode, ``_``
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has no special meaning and is not defined. See section :ref:`import`.
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.. note::
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The name ``_`` is often used in conjunction with internationalization;
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refer to the documentation for the :mod:`gettext` module for more
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information on this convention.
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``__*__``
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System-defined names, informally known as "dunder" names. These names are
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defined by the interpreter and its implementation (including the standard library).
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Current system names are discussed in the :ref:`specialnames` section and elsewhere.
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More will likely be defined in future versions of Python. *Any* use of ``__*__`` names,
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in any context, that does not follow explicitly documented use, is subject to
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breakage without warning.
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``__*``
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Class-private names. Names in this category, when used within the context of a
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class definition, are re-written to use a mangled form to help avoid name
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clashes between "private" attributes of base and derived classes. See section
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:ref:`atom-identifiers`.
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.. _literals:
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Literals
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========
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.. index:: literal, constant
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Literals are notations for constant values of some built-in types.
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.. index:: string literal, bytes literal, ASCII
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single: ' (single quote); string literal
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single: " (double quote); string literal
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single: u'; string literal
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single: u"; string literal
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.. _strings:
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String and Bytes literals
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-------------------------
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String literals are described by the following lexical definitions:
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.. productionlist::
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stringliteral: [`stringprefix`](`shortstring` | `longstring`)
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stringprefix: "r" | "u" | "R" | "U" | "f" | "F"
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: | "fr" | "Fr" | "fR" | "FR" | "rf" | "rF" | "Rf" | "RF"
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shortstring: "'" `shortstringitem`* "'" | '"' `shortstringitem`* '"'
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longstring: "'''" `longstringitem`* "'''" | '"""' `longstringitem`* '"""'
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shortstringitem: `shortstringchar` | `stringescapeseq`
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longstringitem: `longstringchar` | `stringescapeseq`
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shortstringchar: <any source character except "\" or newline or the quote>
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longstringchar: <any source character except "\">
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stringescapeseq: "\" <any source character>
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.. productionlist::
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bytesliteral: `bytesprefix`(`shortbytes` | `longbytes`)
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bytesprefix: "b" | "B" | "br" | "Br" | "bR" | "BR" | "rb" | "rB" | "Rb" | "RB"
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shortbytes: "'" `shortbytesitem`* "'" | '"' `shortbytesitem`* '"'
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longbytes: "'''" `longbytesitem`* "'''" | '"""' `longbytesitem`* '"""'
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shortbytesitem: `shortbyteschar` | `bytesescapeseq`
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longbytesitem: `longbyteschar` | `bytesescapeseq`
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shortbyteschar: <any ASCII character except "\" or newline or the quote>
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longbyteschar: <any ASCII character except "\">
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bytesescapeseq: "\" <any ASCII character>
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One syntactic restriction not indicated by these productions is that whitespace
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is not allowed between the :token:`stringprefix` or :token:`bytesprefix` and the
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rest of the literal. The source character set is defined by the encoding
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declaration; it is UTF-8 if no encoding declaration is given in the source file;
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see section :ref:`encodings`.
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.. index:: triple-quoted string, Unicode Consortium, raw string
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single: """; string literal
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single: '''; string literal
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In plain English: Both types of literals can be enclosed in matching single quotes
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(``'``) or double quotes (``"``). They can also be enclosed in matching groups
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of three single or double quotes (these are generally referred to as
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*triple-quoted strings*). The backslash (``\``) character is used to escape
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characters that otherwise have a special meaning, such as newline, backslash
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itself, or the quote character.
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.. index::
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single: b'; bytes literal
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single: b"; bytes literal
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Bytes literals are always prefixed with ``'b'`` or ``'B'``; they produce an
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instance of the :class:`bytes` type instead of the :class:`str` type. They
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may only contain ASCII characters; bytes with a numeric value of 128 or greater
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must be expressed with escapes.
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.. index::
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single: r'; raw string literal
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single: r"; raw string literal
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Both string and bytes literals may optionally be prefixed with a letter ``'r'``
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or ``'R'``; such strings are called :dfn:`raw strings` and treat backslashes as
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literal characters. As a result, in string literals, ``'\U'`` and ``'\u'``
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escapes in raw strings are not treated specially. Given that Python 2.x's raw
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unicode literals behave differently than Python 3.x's the ``'ur'`` syntax
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is not supported.
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.. versionadded:: 3.3
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The ``'rb'`` prefix of raw bytes literals has been added as a synonym
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of ``'br'``.
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.. versionadded:: 3.3
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Support for the unicode legacy literal (``u'value'``) was reintroduced
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to simplify the maintenance of dual Python 2.x and 3.x codebases.
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See :pep:`414` for more information.
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.. index::
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single: f'; formatted string literal
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single: f"; formatted string literal
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A string literal with ``'f'`` or ``'F'`` in its prefix is a
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:dfn:`formatted string literal`; see :ref:`f-strings`. The ``'f'`` may be
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combined with ``'r'``, but not with ``'b'`` or ``'u'``, therefore raw
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formatted strings are possible, but formatted bytes literals are not.
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In triple-quoted literals, unescaped newlines and quotes are allowed (and are
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retained), except that three unescaped quotes in a row terminate the literal. (A
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"quote" is the character used to open the literal, i.e. either ``'`` or ``"``.)
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.. index:: physical line, escape sequence, Standard C, C
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single: \ (backslash); escape sequence
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single: \\; escape sequence
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single: \a; escape sequence
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single: \b; escape sequence
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single: \f; escape sequence
|
|
single: \n; escape sequence
|
|
single: \r; escape sequence
|
|
single: \t; escape sequence
|
|
single: \v; escape sequence
|
|
single: \x; escape sequence
|
|
single: \N; escape sequence
|
|
single: \u; escape sequence
|
|
single: \U; escape sequence
|
|
|
|
Unless an ``'r'`` or ``'R'`` prefix is present, escape sequences in string and
|
|
bytes literals are interpreted according to rules similar to those used by
|
|
Standard C. The recognized escape sequences are:
|
|
|
|
+-----------------+---------------------------------+-------+
|
|
| Escape Sequence | Meaning | Notes |
|
|
+=================+=================================+=======+
|
|
| ``\newline`` | Backslash and newline ignored | |
|
|
+-----------------+---------------------------------+-------+
|
|
| ``\\`` | Backslash (``\``) | |
|
|
+-----------------+---------------------------------+-------+
|
|
| ``\'`` | Single quote (``'``) | |
|
|
+-----------------+---------------------------------+-------+
|
|
| ``\"`` | Double quote (``"``) | |
|
|
+-----------------+---------------------------------+-------+
|
|
| ``\a`` | ASCII Bell (BEL) | |
|
|
+-----------------+---------------------------------+-------+
|
|
| ``\b`` | ASCII Backspace (BS) | |
|
|
+-----------------+---------------------------------+-------+
|
|
| ``\f`` | ASCII Formfeed (FF) | |
|
|
+-----------------+---------------------------------+-------+
|
|
| ``\n`` | ASCII Linefeed (LF) | |
|
|
+-----------------+---------------------------------+-------+
|
|
| ``\r`` | ASCII Carriage Return (CR) | |
|
|
+-----------------+---------------------------------+-------+
|
|
| ``\t`` | ASCII Horizontal Tab (TAB) | |
|
|
+-----------------+---------------------------------+-------+
|
|
| ``\v`` | ASCII Vertical Tab (VT) | |
|
|
+-----------------+---------------------------------+-------+
|
|
| ``\ooo`` | Character with octal value | (1,3) |
|
|
| | *ooo* | |
|
|
+-----------------+---------------------------------+-------+
|
|
| ``\xhh`` | Character with hex value *hh* | (2,3) |
|
|
+-----------------+---------------------------------+-------+
|
|
|
|
Escape sequences only recognized in string literals are:
|
|
|
|
+-----------------+---------------------------------+-------+
|
|
| Escape Sequence | Meaning | Notes |
|
|
+=================+=================================+=======+
|
|
| ``\N{name}`` | Character named *name* in the | \(4) |
|
|
| | Unicode database | |
|
|
+-----------------+---------------------------------+-------+
|
|
| ``\uxxxx`` | Character with 16-bit hex value | \(5) |
|
|
| | *xxxx* | |
|
|
+-----------------+---------------------------------+-------+
|
|
| ``\Uxxxxxxxx`` | Character with 32-bit hex value | \(6) |
|
|
| | *xxxxxxxx* | |
|
|
+-----------------+---------------------------------+-------+
|
|
|
|
Notes:
|
|
|
|
(1)
|
|
As in Standard C, up to three octal digits are accepted.
|
|
|
|
(2)
|
|
Unlike in Standard C, exactly two hex digits are required.
|
|
|
|
(3)
|
|
In a bytes literal, hexadecimal and octal escapes denote the byte with the
|
|
given value. In a string literal, these escapes denote a Unicode character
|
|
with the given value.
|
|
|
|
(4)
|
|
.. versionchanged:: 3.3
|
|
Support for name aliases [#]_ has been added.
|
|
|
|
(5)
|
|
Exactly four hex digits are required.
|
|
|
|
(6)
|
|
Any Unicode character can be encoded this way. Exactly eight hex digits
|
|
are required.
|
|
|
|
|
|
.. index:: unrecognized escape sequence
|
|
|
|
Unlike Standard C, all unrecognized escape sequences are left in the string
|
|
unchanged, i.e., *the backslash is left in the result*. (This behavior is
|
|
useful when debugging: if an escape sequence is mistyped, the resulting output
|
|
is more easily recognized as broken.) It is also important to note that the
|
|
escape sequences only recognized in string literals fall into the category of
|
|
unrecognized escapes for bytes literals.
|
|
|
|
.. versionchanged:: 3.6
|
|
Unrecognized escape sequences produce a :exc:`DeprecationWarning`. In
|
|
a future Python version they will be a :exc:`SyntaxWarning` and
|
|
eventually a :exc:`SyntaxError`.
|
|
|
|
Even in a raw literal, quotes can be escaped with a backslash, but the
|
|
backslash remains in the result; for example, ``r"\""`` is a valid string
|
|
literal consisting of two characters: a backslash and a double quote; ``r"\"``
|
|
is not a valid string literal (even a raw string cannot end in an odd number of
|
|
backslashes). Specifically, *a raw literal cannot end in a single backslash*
|
|
(since the backslash would 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 literal, *not* as a line continuation.
|
|
|
|
|
|
.. _string-concatenation:
|
|
|
|
String literal concatenation
|
|
----------------------------
|
|
|
|
Multiple adjacent string or bytes literals (delimited by whitespace), possibly
|
|
using different quoting conventions, are allowed, and their meaning is the same
|
|
as their concatenation. Thus, ``"hello" 'world'`` is equivalent to
|
|
``"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::
|
|
|
|
re.compile("[A-Za-z_]" # letter or underscore
|
|
"[A-Za-z0-9_]*" # letter, digit or underscore
|
|
)
|
|
|
|
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),
|
|
and formatted string literals may be concatenated with plain string literals.
|
|
|
|
|
|
.. index::
|
|
single: formatted string literal
|
|
single: interpolated string literal
|
|
single: string; formatted literal
|
|
single: string; interpolated literal
|
|
single: f-string
|
|
single: fstring
|
|
single: {} (curly brackets); in formatted string literal
|
|
single: ! (exclamation); in formatted string literal
|
|
single: : (colon); in formatted string literal
|
|
single: = (equals); for help in debugging using string literals
|
|
.. _f-strings:
|
|
|
|
Formatted string literals
|
|
-------------------------
|
|
|
|
.. versionadded:: 3.6
|
|
|
|
A :dfn:`formatted string literal` or :dfn:`f-string` is a string literal
|
|
that is prefixed with ``'f'`` or ``'F'``. These strings may contain
|
|
replacement fields, which are expressions delimited by curly braces ``{}``.
|
|
While other string literals always have a constant value, formatted strings
|
|
are really expressions evaluated at run time.
|
|
|
|
Escape sequences are decoded like in ordinary string literals (except when
|
|
a literal is also marked as a raw string). After decoding, the grammar
|
|
for the contents of the string is:
|
|
|
|
.. productionlist::
|
|
f_string: (`literal_char` | "{{" | "}}" | `replacement_field`)*
|
|
replacement_field: "{" `f_expression` ["="] ["!" `conversion`] [":" `format_spec`] "}"
|
|
f_expression: (`conditional_expression` | "*" `or_expr`)
|
|
: ("," `conditional_expression` | "," "*" `or_expr`)* [","]
|
|
: | `yield_expression`
|
|
conversion: "s" | "r" | "a"
|
|
format_spec: (`literal_char` | NULL | `replacement_field`)*
|
|
literal_char: <any code point except "{", "}" or NULL>
|
|
|
|
The parts of the string outside curly braces are treated literally,
|
|
except that any doubled curly braces ``'{{'`` or ``'}}'`` are replaced
|
|
with the corresponding single curly brace. A single opening curly
|
|
bracket ``'{'`` marks a replacement field, which starts with a
|
|
Python expression. To display both the expression text and its value after
|
|
evaluation, (useful in debugging), an equal sign ``'='`` may be added after the
|
|
expression. A conversion field, introduced by an exclamation point ``'!'`` may
|
|
follow. A format specifier may also be appended, introduced by a colon ``':'``.
|
|
A replacement field ends with a closing curly bracket ``'}'``.
|
|
|
|
Expressions in formatted string literals are treated like regular
|
|
Python expressions surrounded by parentheses, with a few exceptions.
|
|
An empty expression is not allowed, and both :keyword:`lambda` and
|
|
assignment expressions ``:=`` must be surrounded by explicit parentheses.
|
|
Replacement expressions can contain line breaks (e.g. in triple-quoted
|
|
strings), but they cannot contain comments. Each expression is evaluated
|
|
in the context where the formatted string literal appears, in order from
|
|
left to right.
|
|
|
|
.. versionchanged:: 3.7
|
|
Prior to Python 3.7, an :keyword:`await` expression and comprehensions
|
|
containing an :keyword:`async for` clause were illegal in the expressions
|
|
in formatted string literals due to a problem with the implementation.
|
|
|
|
When the equal sign ``'='`` is provided, the output will have the expression
|
|
text, the ``'='`` and the evaluated value. Spaces after the opening brace
|
|
``'{'``, within the expression and after the ``'='`` are all retained in the
|
|
output. By default, the ``'='`` causes the :func:`repr` of the expression to be
|
|
provided, unless there is a format specified. When a format is specified it
|
|
defaults to the :func:`str` of the expression unless a conversion ``'!r'`` is
|
|
declared.
|
|
|
|
.. versionadded:: 3.8
|
|
The equal sign ``'='`` was added in Python 3.8.
|
|
|
|
If a conversion is specified, the result of evaluating the expression
|
|
is converted before formatting. Conversion ``'!s'`` calls :func:`str` on
|
|
the result, ``'!r'`` calls :func:`repr`, and ``'!a'`` calls :func:`ascii`.
|
|
|
|
The result is then formatted using the :func:`format` protocol. The
|
|
format specifier is passed to the :meth:`__format__` method of the
|
|
expression or conversion result. An empty string is passed when the
|
|
format specifier is omitted. The formatted result is then included in
|
|
the final value of the whole string.
|
|
|
|
Top-level format specifiers may include nested replacement fields. These nested
|
|
fields may include their own conversion fields and :ref:`format specifiers
|
|
<formatspec>`, but may not include more deeply-nested replacement fields. The
|
|
:ref:`format specifier mini-language <formatspec>` is the same as that used by
|
|
the string .format() method.
|
|
|
|
Formatted string literals may be concatenated, but replacement fields
|
|
cannot be split across literals.
|
|
|
|
Some examples of formatted string literals::
|
|
|
|
>>> name = "Fred"
|
|
>>> f"He said his name is {name!r}."
|
|
"He said his name is 'Fred'."
|
|
>>> f"He said his name is {repr(name)}." # repr() is equivalent to !r
|
|
"He said his name is 'Fred'."
|
|
>>> width = 10
|
|
>>> precision = 4
|
|
>>> value = decimal.Decimal("12.34567")
|
|
>>> f"result: {value:{width}.{precision}}" # nested fields
|
|
'result: 12.35'
|
|
>>> today = datetime(year=2017, month=1, day=27)
|
|
>>> f"{today:%B %d, %Y}" # using date format specifier
|
|
'January 27, 2017'
|
|
>>> f"{today=:%B %d, %Y}" # using date format specifier and debugging
|
|
'today=January 27, 2017'
|
|
>>> number = 1024
|
|
>>> f"{number:#0x}" # using integer format specifier
|
|
'0x400'
|
|
>>> foo = "bar"
|
|
>>> f"{ foo = }" # preserves whitespace
|
|
" foo = 'bar'"
|
|
>>> line = "The mill's closed"
|
|
>>> f"{line = }"
|
|
'line = "The mill\'s closed"'
|
|
>>> f"{line = :20}"
|
|
"line = The mill's closed "
|
|
>>> f"{line = !r:20}"
|
|
'line = "The mill\'s closed" '
|
|
|
|
|
|
A consequence of sharing the same syntax as regular string literals is
|
|
that characters in the replacement fields must not conflict with the
|
|
quoting used in the outer formatted string literal::
|
|
|
|
f"abc {a["x"]} def" # error: outer string literal ended prematurely
|
|
f"abc {a['x']} def" # workaround: use different quoting
|
|
|
|
Backslashes are not allowed in format expressions and will raise
|
|
an error::
|
|
|
|
f"newline: {ord('\n')}" # raises SyntaxError
|
|
|
|
To include a value in which a backslash escape is required, create
|
|
a temporary variable.
|
|
|
|
>>> newline = ord('\n')
|
|
>>> f"newline: {newline}"
|
|
'newline: 10'
|
|
|
|
Formatted string literals cannot be used as docstrings, even if they do not
|
|
include expressions.
|
|
|
|
::
|
|
|
|
>>> def foo():
|
|
... f"Not a docstring"
|
|
...
|
|
>>> foo.__doc__ is None
|
|
True
|
|
|
|
See also :pep:`498` for the proposal that added formatted string literals,
|
|
and :meth:`str.format`, which uses a related format string mechanism.
|
|
|
|
|
|
.. _numbers:
|
|
|
|
Numeric literals
|
|
----------------
|
|
|
|
.. index:: number, numeric literal, integer literal
|
|
floating point literal, hexadecimal literal
|
|
octal literal, binary literal, decimal literal, imaginary literal, complex literal
|
|
|
|
There are three types of numeric literals: 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).
|
|
|
|
Note that numeric literals do not include a sign; a phrase like ``-1`` is
|
|
actually an expression composed of the unary operator '``-``' and the literal
|
|
``1``.
|
|
|
|
|
|
.. index::
|
|
single: 0b; integer literal
|
|
single: 0o; integer literal
|
|
single: 0x; integer literal
|
|
single: _ (underscore); in numeric literal
|
|
|
|
.. _integers:
|
|
|
|
Integer literals
|
|
----------------
|
|
|
|
Integer literals are described by the following lexical definitions:
|
|
|
|
.. productionlist::
|
|
integer: `decinteger` | `bininteger` | `octinteger` | `hexinteger`
|
|
decinteger: `nonzerodigit` (["_"] `digit`)* | "0"+ (["_"] "0")*
|
|
bininteger: "0" ("b" | "B") (["_"] `bindigit`)+
|
|
octinteger: "0" ("o" | "O") (["_"] `octdigit`)+
|
|
hexinteger: "0" ("x" | "X") (["_"] `hexdigit`)+
|
|
nonzerodigit: "1"..."9"
|
|
digit: "0"..."9"
|
|
bindigit: "0" | "1"
|
|
octdigit: "0"..."7"
|
|
hexdigit: `digit` | "a"..."f" | "A"..."F"
|
|
|
|
There is no limit for the length of integer literals apart from what can be
|
|
stored in available memory.
|
|
|
|
Underscores are ignored for determining the numeric value of the literal. They
|
|
can be used to group digits for enhanced readability. One underscore can occur
|
|
between digits, and after base specifiers like ``0x``.
|
|
|
|
Note that leading zeros in a non-zero decimal number are not allowed. This is
|
|
for disambiguation with C-style octal literals, which Python used before version
|
|
3.0.
|
|
|
|
Some examples of integer literals::
|
|
|
|
7 2147483647 0o177 0b100110111
|
|
3 79228162514264337593543950336 0o377 0xdeadbeef
|
|
100_000_000_000 0b_1110_0101
|
|
|
|
.. versionchanged:: 3.6
|
|
Underscores are now allowed for grouping purposes in literals.
|
|
|
|
|
|
.. index::
|
|
single: . (dot); in numeric literal
|
|
single: e; in numeric literal
|
|
single: _ (underscore); in numeric literal
|
|
.. _floating:
|
|
|
|
Floating point literals
|
|
-----------------------
|
|
|
|
Floating point literals are described by the following lexical definitions:
|
|
|
|
.. productionlist::
|
|
floatnumber: `pointfloat` | `exponentfloat`
|
|
pointfloat: [`digitpart`] `fraction` | `digitpart` "."
|
|
exponentfloat: (`digitpart` | `pointfloat`) `exponent`
|
|
digitpart: `digit` (["_"] `digit`)*
|
|
fraction: "." `digitpart`
|
|
exponent: ("e" | "E") ["+" | "-"] `digitpart`
|
|
|
|
Note that the integer and exponent parts are always interpreted using radix 10.
|
|
For example, ``077e010`` is legal, and denotes the same number as ``77e10``. The
|
|
allowed range of floating point literals is implementation-dependent. As in
|
|
integer literals, underscores are supported for digit grouping.
|
|
|
|
Some examples of floating point literals::
|
|
|
|
3.14 10. .001 1e100 3.14e-10 0e0 3.14_15_93
|
|
|
|
.. versionchanged:: 3.6
|
|
Underscores are now allowed for grouping purposes in literals.
|
|
|
|
|
|
.. index::
|
|
single: j; in numeric literal
|
|
.. _imaginary:
|
|
|
|
Imaginary literals
|
|
------------------
|
|
|
|
Imaginary literals are described by the following lexical definitions:
|
|
|
|
.. productionlist::
|
|
imagnumber: (`floatnumber` | `digitpart`) ("j" | "J")
|
|
|
|
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., ``(3+4j)``. Some examples of
|
|
imaginary literals::
|
|
|
|
3.14j 10.j 10j .001j 1e100j 3.14e-10j 3.14_15_93j
|
|
|
|
|
|
.. _operators:
|
|
|
|
Operators
|
|
=========
|
|
|
|
.. index:: single: operators
|
|
|
|
The following tokens are operators:
|
|
|
|
.. code-block:: none
|
|
|
|
|
|
+ - * ** / // % @
|
|
<< >> & | ^ ~ :=
|
|
< > <= >= == !=
|
|
|
|
|
|
.. _delimiters:
|
|
|
|
Delimiters
|
|
==========
|
|
|
|
.. index:: single: delimiters
|
|
|
|
The following tokens serve as delimiters in the grammar:
|
|
|
|
.. code-block:: none
|
|
|
|
( ) [ ] { }
|
|
, : . ; @ = ->
|
|
+= -= *= /= //= %= @=
|
|
&= |= ^= >>= <<= **=
|
|
|
|
The period can also occur in floating-point and imaginary literals. A sequence
|
|
of three periods has a special meaning as an ellipsis literal. 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:
|
|
|
|
.. code-block:: none
|
|
|
|
' " # \
|
|
|
|
The following printing ASCII characters are not used in Python. Their
|
|
occurrence outside string literals and comments is an unconditional error:
|
|
|
|
.. code-block:: none
|
|
|
|
$ ? `
|
|
|
|
|
|
.. rubric:: Footnotes
|
|
|
|
.. [#] http://www.unicode.org/Public/11.0.0/ucd/NameAliases.txt
|