mirror of https://github.com/python/cpython
675 lines
23 KiB
TeX
675 lines
23 KiB
TeX
\chapter{Expressions and conditions}
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\index{expression}
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\index{condition}
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{\bf Note:} In this and the following chapters, extended BNF notation
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will be used to describe syntax, not lexical analysis.
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\index{BNF}
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This chapter explains the meaning of the elements of expressions and
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conditions. Conditions are a superset of expressions, and a condition
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may be used wherever an expression is required by enclosing it in
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parentheses. The only places where expressions are used in the syntax
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instead of conditions is in expression statements and on the
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right-hand side of assignment statements; this catches some nasty bugs
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like accidentally writing \verb\x == 1\ instead of \verb\x = 1\.
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\indexii{assignment}{statement}
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The comma plays several roles in Python's syntax. It is usually an
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operator with a lower precedence than all others, but occasionally
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serves other purposes as well; e.g. it separates function arguments,
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is used in list and dictionary constructors, and has special semantics
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in \verb\print\ statements.
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\index{comma}
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When (one alternative of) a syntax rule has the form
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\begin{verbatim}
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name: othername
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\end{verbatim}
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and no semantics are given, the semantics of this form of \verb\name\
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are the same as for \verb\othername\.
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\index{syntax}
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\section{Arithmetic conversions}
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\indexii{arithmetic}{conversion}
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When a description of an arithmetic operator below uses the phrase
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``the numeric arguments are converted to a common type'',
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this both means that if either argument is not a number, a
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\verb\TypeError\ exception is raised, and that otherwise
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the following conversions are applied:
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\exindex{TypeError}
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\indexii{floating point}{number}
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\indexii{long}{integer}
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\indexii{plain}{integer}
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\begin{itemize}
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\item first, if either argument is a floating point number,
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the other is converted to floating point;
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\item else, if either argument is a long integer,
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the other is converted to long integer;
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\item otherwise, both must be plain integers and no conversion
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is necessary.
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\end{itemize}
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\section{Atoms}
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\index{atom}
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Atoms are the most basic elements of expressions. Forms enclosed in
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reverse quotes or in parentheses, brackets or braces are also
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categorized syntactically as atoms. The syntax for atoms is:
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\begin{verbatim}
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atom: identifier | literal | enclosure
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enclosure: parenth_form | list_display | dict_display | string_conversion
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\end{verbatim}
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\subsection{Identifiers (Names)}
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\index{name}
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\index{identifier}
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An identifier occurring as an atom is a reference to a local, global
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or built-in name binding. If a name can be assigned to anywhere in a
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code block, and is not mentioned in a \verb\global\ statement in that
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code block, it refers to a local name throughout that code block.
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Otherwise, it refers to a global name if one exists, else to a
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built-in name.
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\indexii{name}{binding}
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\index{code block}
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\stindex{global}
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\indexii{built-in}{name}
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\indexii{global}{name}
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When the name is bound to an object, evaluation of the atom yields
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that object. When a name is not bound, an attempt to evaluate it
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raises a \verb\NameError\ exception.
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\exindex{NameError}
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\subsection{Literals}
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\index{literal}
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Python knows string and numeric literals:
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\begin{verbatim}
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literal: stringliteral | integer | longinteger | floatnumber
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\end{verbatim}
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Evaluation of a literal yields an object of the given type (string,
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integer, long integer, floating point number) with the given value.
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The value may be approximated in the case of floating point literals.
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See section \ref{literals} for details.
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All literals correspond to immutable data types, and hence the
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object's identity is less important than its value. Multiple
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evaluations of literals with the same value (either the same
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occurrence in the program text or a different occurrence) may obtain
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the same object or a different object with the same value.
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\indexiii{immutable}{data}{type}
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(In the original implementation, all literals in the same code block
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with the same type and value yield the same object.)
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\subsection{Parenthesized forms}
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\index{parenthesized form}
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A parenthesized form is an optional condition list enclosed in
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parentheses:
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\begin{verbatim}
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parenth_form: "(" [condition_list] ")"
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\end{verbatim}
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A parenthesized condition list yields whatever that condition list
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yields.
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An empty pair of parentheses yields an empty tuple object. Since
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tuples are immutable, the rules for literals apply here.
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\indexii{empty}{tuple}
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(Note that tuples are not formed by the parentheses, but rather by use
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of the comma operator. The exception is the empty tuple, for which
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parentheses {\em are} required --- allowing unparenthesized ``nothing''
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in expressions would causes ambiguities and allow common typos to
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pass uncaught.)
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\index{comma}
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\indexii{tuple}{display}
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\subsection{List displays}
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\indexii{list}{display}
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A list display is a possibly empty series of conditions enclosed in
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square brackets:
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\begin{verbatim}
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list_display: "[" [condition_list] "]"
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\end{verbatim}
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A list display yields a new list object.
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\obindex{list}
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If it has no condition list, the list object has no items. Otherwise,
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the elements of the condition list are evaluated from left to right
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and inserted in the list object in that order.
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\indexii{empty}{list}
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\subsection{Dictionary displays} \label{dict}
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\indexii{dictionary}{display}
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A dictionary display is a possibly empty series of key/datum pairs
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enclosed in curly braces:
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\index{key}
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\index{datum}
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\index{key/datum pair}
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\begin{verbatim}
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dict_display: "{" [key_datum_list] "}"
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key_datum_list: key_datum ("," key_datum)* [","]
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key_datum: condition ":" condition
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\end{verbatim}
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A dictionary display yields a new dictionary object.
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\obindex{dictionary}
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The key/datum pairs are evaluated from left to right to define the
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entries of the dictionary: each key object is used as a key into the
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dictionary to store the corresponding datum.
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Keys must be strings, otherwise a \verb\TypeError\ exception is
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raised. Clashes between duplicate keys are not detected; the last
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datum (textually rightmost in the display) stored for a given key
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value prevails.
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\exindex{TypeError}
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\subsection{String conversions}
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\indexii{string}{conversion}
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A string conversion is a condition list enclosed in reverse (or
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backward) quotes:
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\begin{verbatim}
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string_conversion: "`" condition_list "`"
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\end{verbatim}
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A string conversion evaluates the contained condition list and
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converts the resulting object into a string according to rules
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specific to its type.
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If the object is a string, a number, \verb\None\, or a tuple, list or
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dictionary containing only objects whose type is one of these, the
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resulting string is a valid Python expression which can be passed to
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the built-in function \verb\eval()\ to yield an expression with the
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same value (or an approximation, if floating point numbers are
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involved).
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(In particular, converting a string adds quotes around it and converts
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``funny'' characters to escape sequences that are safe to print.)
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It is illegal to attempt to convert recursive objects (e.g. lists or
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dictionaries that contain a reference to themselves, directly or
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indirectly.)
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\obindex{recursive}
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\section{Primaries} \label{primaries}
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\index{primary}
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Primaries represent the most tightly bound operations of the language.
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Their syntax is:
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\begin{verbatim}
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primary: atom | attributeref | subscription | slicing | call
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\end{verbatim}
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\subsection{Attribute references}
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\indexii{attribute}{reference}
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An attribute reference is a primary followed by a period and a name:
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\begin{verbatim}
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attributeref: primary "." identifier
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\end{verbatim}
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The primary must evaluate to an object of a type that supports
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attribute references, e.g. a module or a list. This object is then
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asked to produce the attribute whose name is the identifier. If this
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attribute is not available, the exception \verb\AttributeError\ is
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raised. Otherwise, the type and value of the object produced is
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determined by the object. Multiple evaluations of the same attribute
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reference may yield different objects.
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\obindex{module}
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\obindex{list}
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\subsection{Subscriptions}
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\index{subscription}
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A subscription selects an item of a sequence (string, tuple or list)
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or mapping (dictionary) object:
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\obindex{sequence}
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\obindex{mapping}
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\obindex{string}
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\obindex{tuple}
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\obindex{list}
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\obindex{dictionary}
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\indexii{sequence}{item}
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\begin{verbatim}
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subscription: primary "[" condition "]"
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\end{verbatim}
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The primary must evaluate to an object of a sequence or mapping type.
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If it is a mapping, the condition must evaluate to an object whose
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value is one of the keys of the mapping, and the subscription selects
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the value in the mapping that corresponds to that key.
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If it is a sequence, the condition must evaluate to a plain integer.
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If this value is negative, the length of the sequence is added to it
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(so that, e.g. \verb\x[-1]\ selects the last item of \verb\x\.)
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The resulting value must be a nonnegative integer smaller than the
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number of items in the sequence, and the subscription selects the item
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whose index is that value (counting from zero).
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A string's items are characters. A character is not a separate data
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type but a string of exactly one character.
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\index{character}
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\indexii{string}{item}
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\subsection{Slicings}
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\index{slicing}
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\index{slice}
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A slicing (or slice) selects a range of items in a sequence (string,
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tuple or list) object:
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\obindex{sequence}
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\obindex{string}
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\obindex{tuple}
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\obindex{list}
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\begin{verbatim}
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slicing: primary "[" [condition] ":" [condition] "]"
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\end{verbatim}
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The primary must evaluate to a sequence object. The lower and upper
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bound expressions, if present, must evaluate to plain integers;
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defaults are zero and the sequence's length, respectively. If either
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bound is negative, the sequence's length is added to it. The slicing
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now selects all items with index $k$ such that $i <= k < j$ where $i$
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and $j$ are the specified lower and upper bounds. This may be an
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empty sequence. It is not an error if $i$ or $j$ lie outside the
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range of valid indexes (such items don't exist so they aren't
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selected).
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\subsection{Calls} \label{calls}
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\index{call}
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A call calls a callable object (e.g. a function) with a possibly empty
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series of arguments:
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\obindex{callable}
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\begin{verbatim}
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call: primary "(" [condition_list] ")"
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\end{verbatim}
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The primary must evaluate to a callable object (user-defined
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functions, built-in functions, methods of built-in objects, class
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objects, and methods of class instances are callable). If it is a
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class, the argument list must be empty; otherwise, the arguments are
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evaluated.
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A call always returns some value, possibly \verb\None\, unless it
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raises an exception. How this value is computed depends on the type
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of the callable object. If it is:
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\begin{description}
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\item[a user-defined function:] the code block for the function is
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executed, passing it the argument list. The first thing the code
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block will do is bind the formal parameters to the arguments; this is
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described in section \ref{function}. When the code block executes a
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\verb\return\ statement, this specifies the return value of the
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function call.
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\indexii{function}{call}
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\indexiii{user-defined}{function}{call}
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\obindex{user-defined function}
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\obindex{function}
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\item[a built-in function or method:] the result is up to the
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interpreter; see the library reference manual for the descriptions of
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built-in functions and methods.
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\indexii{function}{call}
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\indexii{built-in function}{call}
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\indexii{method}{call}
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\indexii{built-in method}{call}
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\obindex{built-in method}
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\obindex{built-in function}
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\obindex{method}
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\obindex{function}
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\item[a class object:] a new instance of that class is returned.
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\obindex{class}
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\indexii{class object}{call}
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\item[a class instance method:] the corresponding user-defined
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function is called, with an argument list that is one longer than the
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argument list of the call: the instance becomes the first argument.
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\obindex{class instance}
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\obindex{instance}
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\indexii{instance}{call}
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\indexii{class instance}{call}
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\end{description}
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\section{Unary arithmetic operations}
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\indexiii{unary}{arithmetic}{operation}
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\indexiii{unary}{bit-wise}{operation}
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All unary arithmetic (and bit-wise) operations have the same priority:
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\begin{verbatim}
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u_expr: primary | "-" u_expr | "+" u_expr | "~" u_expr
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\end{verbatim}
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The unary \verb\"-"\ (minus) operator yields the negation of its
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numeric argument.
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\index{negation}
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\index{minus}
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The unary \verb\"+"\ (plus) operator yields its numeric argument
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unchanged.
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\index{plus}
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The unary \verb\"~"\ (invert) operator yields the bit-wise inversion
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of its plain or long integer argument. The bit-wise inversion of
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\verb\x\ is defined as \verb\-(x+1)\.
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\index{inversion}
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In all three cases, if the argument does not have the proper type,
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a \verb\TypeError\ exception is raised.
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\exindex{TypeError}
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\section{Binary arithmetic operations}
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\indexiii{binary}{arithmetic}{operation}
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The binary arithmetic operations have the conventional priority
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levels. Note that some of these operations also apply to certain
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non-numeric types. There is no ``power'' operator, so there are only
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two levels, one for multiplicative operators and one for additive
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operators:
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\begin{verbatim}
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m_expr: u_expr | m_expr "*" u_expr
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| m_expr "/" u_expr | m_expr "%" u_expr
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a_expr: m_expr | aexpr "+" m_expr | aexpr "-" m_expr
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\end{verbatim}
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The \verb\"*"\ (multiplication) operator yields the product of its
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arguments. The arguments must either both be numbers, or one argument
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must be a plain integer and the other must be a sequence. In the
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former case, the numbers are converted to a common type and then
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multiplied together. In the latter case, sequence repetition is
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performed; a negative repetition factor yields an empty sequence.
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\index{multiplication}
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The \verb\"/"\ (division) operator yields the quotient of its
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arguments. The numeric arguments are first converted to a common
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type. Plain or long integer division yields an integer of the same
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type; the result is that of mathematical division with the `floor'
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function applied to the result. Division by zero raises the
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\verb\ZeroDivisionError\ exception.
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\exindex{ZeroDivisionError}
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\index{division}
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The \verb\"%"\ (modulo) operator yields the remainder from the
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division of the first argument by the second. The numeric arguments
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are first converted to a common type. A zero right argument raises
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the \verb\ZeroDivisionError\ exception. The arguments may be floating
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point numbers, e.g. \verb\3.14 % 0.7\ equals \verb\0.34\. The modulo
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operator always yields a result with the same sign as its second
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operand (or zero); the absolute value of the result is strictly
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smaller than the second operand.
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\index{modulo}
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The integer division and modulo operators are connected by the
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following identity: \verb\x == (x/y)*y + (x%y)\. Integer division and
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modulo are also connected with the built-in function \verb\divmod()\:
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\verb\divmod(x, y) == (x/y, x%y)\. These identities don't hold for
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floating point numbers; there a similar identity holds where
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\verb\x/y\ is replaced by \verb\floor(x/y)\).
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The \verb\"+"\ (addition) operator yields the sum of its arguments.
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The arguments must either both be numbers, or both sequences of the
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same type. In the former case, the numbers are converted to a common
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type and then added together. In the latter case, the sequences are
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concatenated.
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\index{addition}
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The \verb\"-"\ (subtraction) operator yields the difference of its
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arguments. The numeric arguments are first converted to a common
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type.
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\index{subtraction}
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\section{Shifting operations}
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\indexii{shifting}{operation}
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The shifting operations have lower priority than the arithmetic
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operations:
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\begin{verbatim}
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shift_expr: a_expr | shift_expr ( "<<" | ">>" ) a_expr
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\end{verbatim}
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These operators accept plain or long integers as arguments. The
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arguments are converted to a common type. They shift the first
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argument to the left or right by the number of bits given by the
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second argument.
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A right shift by $n$ bits is defined as division by $2^n$. A left
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shift by $n$ bits is defined as multiplication with $2^n$; for plain
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integers there is no overflow check so this drops bits and flip the
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sign if the result is not less than $2^{31}$ in absolute value.
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Negative shift counts raise a \verb\ValueError\ exception.
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\exindex{ValueError}
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\section{Binary bit-wise operations}
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\indexiii{binary}{bit-wise}{operation}
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Each of the three bitwise operations has a different priority level:
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\begin{verbatim}
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and_expr: shift_expr | and_expr "&" shift_expr
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xor_expr: and_expr | xor_expr "^" and_expr
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or_expr: xor_expr | or_expr "|" xor_expr
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\end{verbatim}
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The \verb\"&"\ operator yields the bitwise AND of its arguments, which
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must be plain or long integers. The arguments are converted to a
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common type.
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\indexii{bit-wise}{and}
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The \verb\"^"\ operator yields the bitwise XOR (exclusive OR) of its
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arguments, which must be plain or long integers. The arguments are
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converted to a common type.
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\indexii{bit-wise}{xor}
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\indexii{exclusive}{or}
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The \verb\"|"\ operator yields the bitwise (inclusive) OR of its
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arguments, which must be plain or long integers. The arguments are
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converted to a common type.
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\indexii{bit-wise}{or}
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\indexii{inclusive}{or}
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\section{Comparisons}
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\index{comparison}
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Contrary to C, all comparison operations in Python have the same
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priority, which is lower than that of any arithmetic, shifting or
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bitwise operation. Also contrary to C, expressions like
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\verb\a < b < c\ have the interpretation that is conventional in
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mathematics:
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\index{C}
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\begin{verbatim}
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comparison: or_expr (comp_operator or_expr)*
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comp_operator: "<"|">"|"=="|">="|"<="|"<>"|"!="|"is" ["not"]|["not"] "in"
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\end{verbatim}
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Comparisons yield integer values: 1 for true, 0 for false.
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Comparisons can be chained arbitrarily, e.g. $x < y <= z$ is
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equivalent to $x < y$ \verb\and\ $y <= z$, except that $y$ is
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evaluated only once (but in both cases $z$ is not evaluated at all
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when $x < y$ is found to be false).
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\indexii{chaining}{comparisons}
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\catcode`\_=8
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Formally, $e_0 op_1 e_1 op_2 e_2 ...e_{n-1} op_n e_n$ is equivalent to
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$e_0 op_1 e_1$ \verb\and\ $e_1 op_2 e_2$ \verb\and\ ... \verb\and\
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$e_{n-1} op_n e_n$, except that each expression is evaluated at most once.
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Note that $e_0 op_1 e_1 op_2 e_2$ does not imply any kind of comparison
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between $e_0$ and $e_2$, e.g. $x < y > z$ is perfectly legal.
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\catcode`\_=12
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The forms \verb\<>\ and \verb\!=\ are equivalent; for consistency with
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C, \verb\!=\ is preferred; where \verb\!=\ is mentioned below
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\verb\<>\ is also implied.
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The operators {\tt "<", ">", "==", ">=", "<="}, and {\tt "!="} compare
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the values of two objects. The objects needn't have the same type.
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If both are numbers, they are coverted to a common type. Otherwise,
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objects of different types {\em always} compare unequal, and are
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ordered consistently but arbitrarily.
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(This unusual definition of comparison is done to simplify the
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definition of operations like sorting and the \verb\in\ and \verb\not
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in\ operators.)
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Comparison of objects of the same type depends on the type:
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\begin{itemize}
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\item
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Numbers are compared arithmetically.
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\item
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Strings are compared lexicographically using the numeric equivalents
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(the result of the built-in function \verb\ord\) of their characters.
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\item
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Tuples and lists are compared lexicographically using comparison of
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corresponding items.
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\item
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Mappings (dictionaries) are compared through lexicographic
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comparison of their sorted (key, value) lists.%
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\footnote{This is expensive since it requires sorting the keys first,
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but about the only sensible definition. It was tried to compare
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dictionaries by identity only, but this caused surprises because
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people expected to be able to test a dictionary for emptiness by
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comparing it to {\tt \{\}}.}
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\item
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Most other types compare unequal unless they are the same object;
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the choice whether one object is considered smaller or larger than
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another one is made arbitrarily but consistently within one
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execution of a program.
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\end{itemize}
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The operators \verb\in\ and \verb\not in\ test for sequence
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membership: if $y$ is a sequence, $x ~\verb\in\~ y$ is true if and
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only if there exists an index $i$ such that $x = y[i]$.
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$x ~\verb\not in\~ y$ yields the inverse truth value. The exception
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\verb\TypeError\ is raised when $y$ is not a sequence, or when $y$ is
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a string and $x$ is not a string of length one.%
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\footnote{The latter restriction is sometimes a nuisance.}
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\opindex{in}
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\opindex{not in}
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\indexii{membership}{test}
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\obindex{sequence}
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The operators \verb\is\ and \verb\is not\ test for object identity:
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$x ~\verb\is\~ y$ is true if and only if $x$ and $y$ are the same
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object. $x ~\verb\is not\~ y$ yields the inverse truth value.
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\opindex{is}
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\opindex{is not}
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\indexii{identity}{test}
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\section{Boolean operations} \label{Booleans}
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\indexii{Boolean}{operation}
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Boolean operations have the lowest priority of all Python operations:
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\begin{verbatim}
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condition: or_test
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or_test: and_test | or_test "or" and_test
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and_test: not_test | and_test "and" not_test
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not_test: comparison | "not" not_test
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\end{verbatim}
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In the context of Boolean operations, and also when conditions are
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used by control flow statements, the following values are interpreted
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as false: \verb\None\, numeric zero of all types, empty sequences
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(strings, tuples and lists), and empty mappings (dictionaries). All
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other values are interpreted as true.
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The operator \verb\not\ yields 1 if its argument is false, 0 otherwise.
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\opindex{not}
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The condition $x ~\verb\and\~ y$ first evaluates $x$; if $x$ is false,
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its value is returned; otherwise, $y$ is evaluated and the resulting
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value is returned.
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\opindex{and}
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The condition $x ~\verb\or\~ y$ first evaluates $x$; if $x$ is true,
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its value is returned; otherwise, $y$ is evaluated and the resulting
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value is returned.
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\opindex{or}
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(Note that \verb\and\ and \verb\or\ do not restrict the value and type
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they return to 0 and 1, but rather return the last evaluated argument.
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This is sometimes useful, e.g. if \verb\s\ is a string that should be
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replaced by a default value if it is empty, the expression
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\verb\s or 'foo'\ yields the desired value. Because \verb\not\ has to
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invent a value anyway, it does not bother to return a value of the
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same type as its argument, so e.g. \verb\not 'foo'\ yields \verb\0\,
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not \verb\''\.)
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\section{Expression lists and condition lists}
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\indexii{expression}{list}
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\indexii{condition}{list}
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\begin{verbatim}
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expr_list: or_expr ("," or_expr)* [","]
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cond_list: condition ("," condition)* [","]
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\end{verbatim}
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The only difference between expression lists and condition lists is
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the lowest priority of operators that can be used in them without
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being enclosed in parentheses; condition lists allow all operators,
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while expression lists don't allow comparisons and Boolean operators
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(they do allow bitwise and shift operators though).
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Expression lists are used in expression statements and assignments;
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condition lists are used everywhere else where a list of
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comma-separated values is required.
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An expression (condition) list containing at least one comma yields a
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tuple. The length of the tuple is the number of expressions
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(conditions) in the list. The expressions (conditions) are evaluated
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from left to right. (Conditions lists are used syntactically is a few
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places where no tuple is constructed but a list of values is needed
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nevertheless.)
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\obindex{tuple}
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The trailing comma is required only to create a single tuple (a.k.a. a
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{\em singleton}); it is optional in all other cases. A single
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expression (condition) without a trailing comma doesn't create a
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tuple, but rather yields the value of that expression (condition).
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\indexii{trailing}{comma}
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(To create an empty tuple, use an empty pair of parentheses:
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\verb\()\.)
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