mirror of https://github.com/python/cpython
1351 lines
52 KiB
ReStructuredText
1351 lines
52 KiB
ReStructuredText
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.. _expressions:
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***********
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Expressions
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***********
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.. index:: single: expression
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This chapter explains the meaning of the elements of expressions in Python.
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.. index:: single: BNF
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**Syntax Notes:** In this and the following chapters, extended BNF notation will
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be used to describe syntax, not lexical analysis. When (one alternative of) a
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syntax rule has the form
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.. productionlist:: *
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name: `othername`
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.. index:: single: syntax
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and no semantics are given, the semantics of this form of ``name`` are the same
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as for ``othername``.
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.. _conversions:
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Arithmetic conversions
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======================
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.. index:: pair: arithmetic; conversion
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When a description of an arithmetic operator below uses the phrase "the numeric
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arguments are converted to a common type," the arguments are coerced using the
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coercion rules listed at :ref:`coercion-rules`. If both arguments are standard
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numeric types, the following coercions are applied:
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* If either argument is a complex number, the other is converted to complex;
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* otherwise, if either argument is a floating point number, the other is
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converted to floating point;
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* otherwise, if either argument is a long integer, the other is converted to
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long integer;
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* otherwise, both must be plain integers and no conversion is necessary.
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Some additional rules apply for certain operators (e.g., a string left argument
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to the '%' operator). Extensions can define their own coercions.
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.. _atoms:
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Atoms
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=====
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.. index:: single: atom
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Atoms are the most basic elements of expressions. The simplest atoms are
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identifiers or literals. Forms enclosed in reverse quotes or in parentheses,
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brackets or braces are also categorized syntactically as atoms. The syntax for
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atoms is:
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.. productionlist::
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atom: `identifier` | `literal` | `enclosure`
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enclosure: `parenth_form` | `list_display`
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: | `generator_expression` | `dict_display`
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: | `string_conversion` | `yield_atom`
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.. _atom-identifiers:
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Identifiers (Names)
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-------------------
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.. index::
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single: name
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single: identifier
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An identifier occurring as an atom is a name. See section :ref:`identifiers`
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for lexical definition and section :ref:`naming` for documentation of naming and
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binding.
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.. index:: exception: NameError
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When the name is bound to an object, evaluation of the atom yields that object.
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When a name is not bound, an attempt to evaluate it raises a :exc:`NameError`
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exception.
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.. index::
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pair: name; mangling
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pair: private; names
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**Private name mangling:** When an identifier that textually occurs in a class
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definition begins with two or more underscore characters and does not end in two
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or more underscores, it is considered a :dfn:`private name` of that class.
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Private names are transformed to a longer form before code is generated for
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them. The transformation inserts the class name in front of the name, with
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leading underscores removed, and a single underscore inserted in front of the
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class name. For example, the identifier ``__spam`` occurring in a class named
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``Ham`` will be transformed to ``_Ham__spam``. This transformation is
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independent of the syntactical context in which the identifier is used. If the
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transformed name is extremely long (longer than 255 characters), implementation
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defined truncation may happen. If the class name consists only of underscores,
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no transformation is done.
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.. _atom-literals:
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Literals
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--------
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.. index:: single: literal
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Python supports string literals and various numeric literals:
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.. productionlist::
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literal: `stringliteral` | `integer` | `longinteger`
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: | `floatnumber` | `imagnumber`
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Evaluation of a literal yields an object of the given type (string, integer,
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long integer, floating point number, complex number) with the given value. The
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value may be approximated in the case of floating point and imaginary (complex)
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literals. See section :ref:`literals` for details.
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.. index::
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triple: immutable; data; type
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pair: immutable; object
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All literals correspond to immutable data types, and hence the object's identity
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is less important than its value. Multiple evaluations of literals with the
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same value (either the same occurrence in the program text or a different
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occurrence) may obtain the same object or a different object with the same
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value.
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.. _parenthesized:
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Parenthesized forms
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-------------------
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.. index:: single: parenthesized form
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A parenthesized form is an optional expression list enclosed in parentheses:
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.. productionlist::
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parenth_form: "(" [`expression_list`] ")"
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A parenthesized expression list yields whatever that expression list yields: if
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the list contains at least one comma, it yields a tuple; otherwise, it yields
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the single expression that makes up the expression list.
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.. index:: pair: empty; tuple
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An empty pair of parentheses yields an empty tuple object. Since tuples are
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immutable, the rules for literals apply (i.e., two occurrences of the empty
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tuple may or may not yield the same object).
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.. index::
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single: comma
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pair: tuple; display
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Note that tuples are not formed by the parentheses, but rather by use of the
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comma operator. The exception is the empty tuple, for which parentheses *are*
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required --- allowing unparenthesized "nothing" in expressions would cause
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ambiguities and allow common typos to pass uncaught.
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.. _lists:
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List displays
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-------------
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.. index::
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pair: list; display
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pair: list; comprehensions
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A list display is a possibly empty series of expressions enclosed in square
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brackets:
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.. productionlist::
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list_display: "[" [`expression_list` | `list_comprehension`] "]"
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list_comprehension: `expression` `list_for`
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list_for: "for" `target_list` "in" `old_expression_list` [`list_iter`]
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old_expression_list: `old_expression` [("," `old_expression`)+ [","]]
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list_iter: `list_for` | `list_if`
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list_if: "if" `old_expression` [`list_iter`]
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.. index::
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pair: list; comprehensions
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object: list
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pair: empty; list
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A list display yields a new list object. Its contents are specified by
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providing either a list of expressions or a list comprehension. When a
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comma-separated list of expressions is supplied, its elements are evaluated from
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left to right and placed into the list object in that order. When a list
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comprehension is supplied, it consists of a single expression followed by at
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least one :keyword:`for` clause and zero or more :keyword:`for` or :keyword:`if`
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clauses. In this case, the elements of the new list are those that would be
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produced by considering each of the :keyword:`for` or :keyword:`if` clauses a
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block, nesting from left to right, and evaluating the expression to produce a
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list element each time the innermost block is reached [#]_.
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.. _genexpr:
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Generator expressions
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---------------------
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.. index:: pair: generator; expression
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A generator expression is a compact generator notation in parentheses:
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.. productionlist::
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generator_expression: "(" `expression` `genexpr_for` ")"
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genexpr_for: "for" `target_list` "in" `or_test` [`genexpr_iter`]
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genexpr_iter: `genexpr_for` | `genexpr_if`
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genexpr_if: "if" `old_expression` [`genexpr_iter`]
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.. index:: object: generator
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A generator expression yields a new generator object. It consists of a single
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expression followed by at least one :keyword:`for` clause and zero or more
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:keyword:`for` or :keyword:`if` clauses. The iterating values of the new
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generator are those that would be produced by considering each of the
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:keyword:`for` or :keyword:`if` clauses a block, nesting from left to right, and
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evaluating the expression to yield a value that is reached the innermost block
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for each iteration.
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Variables used in the generator expression are evaluated lazily in a separate
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scope when the :meth:`next` method is called for the generator object (in the
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same fashion as for normal generators). However, the :keyword:`in` expression
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of the leftmost :keyword:`for` clause is immediately evaluated in the current
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scope so that an error produced by it can be seen before any other possible
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error in the code that handles the generator expression. Subsequent
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:keyword:`for` and :keyword:`if` clauses cannot be evaluated immediately since
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they may depend on the previous :keyword:`for` loop. For example:
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``(x*y for x in range(10) for y in bar(x))``.
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The parentheses can be omitted on calls with only one argument. See section
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:ref:`calls` for the detail.
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.. _dict:
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Dictionary displays
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-------------------
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.. index:: pair: dictionary; display
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.. index::
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single: key
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single: datum
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single: key/datum pair
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A dictionary display is a possibly empty series of key/datum pairs enclosed in
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curly braces:
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.. productionlist::
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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: `expression` ":" `expression`
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.. index:: object: dictionary
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A dictionary display yields a new dictionary object.
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The key/datum pairs are evaluated from left to right to define the entries of
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the dictionary: each key object is used as a key into the dictionary to store
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the corresponding datum.
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.. index:: pair: immutable; object
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Restrictions on the types of the key values are listed earlier in section
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:ref:`types`. (To summarize, the key type should be :term:`hashable`, which excludes
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all mutable objects.) Clashes between duplicate keys are not detected; the last
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datum (textually rightmost in the display) stored for a given key value
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prevails.
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.. _string-conversions:
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String conversions
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------------------
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.. index::
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pair: string; conversion
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pair: reverse; quotes
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pair: backward; quotes
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single: back-quotes
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A string conversion is an expression list enclosed in reverse (a.k.a. backward)
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quotes:
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.. productionlist::
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string_conversion: "'" `expression_list` "'"
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A string conversion evaluates the contained expression list and converts the
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resulting object into a string according to rules specific to its type.
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If the object is a string, a number, ``None``, or a tuple, list or dictionary
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containing only objects whose type is one of these, the resulting string is a
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valid Python expression which can be passed to the built-in function
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:func:`eval` to yield an expression with the same value (or an approximation, if
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floating point numbers are involved).
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(In particular, converting a string adds quotes around it and converts "funny"
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characters to escape sequences that are safe to print.)
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.. index:: object: recursive
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Recursive objects (for example, lists or dictionaries that contain a reference
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to themselves, directly or indirectly) use ``...`` to indicate a recursive
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reference, and the result cannot be passed to :func:`eval` to get an equal value
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(:exc:`SyntaxError` will be raised instead).
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.. index::
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builtin: repr
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builtin: str
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The built-in function :func:`repr` performs exactly the same conversion in its
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argument as enclosing it in parentheses and reverse quotes does. The built-in
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function :func:`str` performs a similar but more user-friendly conversion.
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.. _yieldexpr:
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Yield expressions
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-----------------
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.. index::
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keyword: yield
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pair: yield; expression
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pair: generator; function
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.. productionlist::
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yield_atom: "(" `yield_expression` ")"
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yield_expression: "yield" [`expression_list`]
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.. versionadded:: 2.5
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The :keyword:`yield` expression is only used when defining a generator function,
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and can only be used in the body of a function definition. Using a
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:keyword:`yield` expression in a function definition is sufficient to cause that
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definition to create a generator function instead of a normal function.
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When a generator function is called, it returns an iterator known as a
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generator. That generator then controls the execution of a generator function.
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The execution starts when one of the generator's methods is called. At that
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time, the execution proceeds to the first :keyword:`yield` expression, where it
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is suspended again, returning the value of :token:`expression_list` to
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generator's caller. By suspended we mean that all local state is retained,
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including the current bindings of local variables, the instruction pointer, and
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the internal evaluation stack. When the execution is resumed by calling one of
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the generator's methods, the function can proceed exactly as if the
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:keyword:`yield` expression was just another external call. The value of the
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:keyword:`yield` expression after resuming depends on the method which resumed
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the execution.
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.. index:: single: coroutine
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All of this makes generator functions quite similar to coroutines; they yield
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multiple times, they have more than one entry point and their execution can be
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suspended. The only difference is that a generator function cannot control
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where should the execution continue after it yields; the control is always
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transfered to the generator's caller.
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.. index:: object: generator
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The following generator's methods can be used to control the execution of a
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generator function:
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.. index:: exception: StopIteration
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.. method:: generator.next()
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Starts the execution of a generator function or resumes it at the last executed
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:keyword:`yield` expression. When a generator function is resumed with a
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:meth:`next` method, the current :keyword:`yield` expression always evaluates to
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:const:`None`. The execution then continues to the next :keyword:`yield`
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expression, where the generator is suspended again, and the value of the
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:token:`expression_list` is returned to :meth:`next`'s caller. If the generator
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exits without yielding another value, a :exc:`StopIteration` exception is
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raised.
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.. method:: generator.send(value)
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Resumes the execution and "sends" a value into the generator function. The
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``value`` argument becomes the result of the current :keyword:`yield`
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expression. The :meth:`send` method returns the next value yielded by the
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generator, or raises :exc:`StopIteration` if the generator exits without
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yielding another value. When :meth:`send` is called to start the generator, it
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must be called with :const:`None` as the argument, because there is no
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:keyword:`yield` expression that could receive the value.
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.. method:: generator.throw(type[, value[, traceback]])
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Raises an exception of type ``type`` at the point where generator was paused,
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and returns the next value yielded by the generator function. If the generator
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exits without yielding another value, a :exc:`StopIteration` exception is
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raised. If the generator function does not catch the passed-in exception, or
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raises a different exception, then that exception propagates to the caller.
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.. index:: exception: GeneratorExit
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.. method:: generator.close()
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Raises a :exc:`GeneratorExit` at the point where the generator function was
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paused. If the generator function then raises :exc:`StopIteration` (by exiting
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normally, or due to already being closed) or :exc:`GeneratorExit` (by not
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catching the exception), close returns to its caller. If the generator yields a
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value, a :exc:`RuntimeError` is raised. If the generator raises any other
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exception, it is propagated to the caller. :meth:`close` does nothing if the
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generator has already exited due to an exception or normal exit.
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Here is a simple example that demonstrates the behavior of generators and
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generator functions::
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>>> def echo(value=None):
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... print "Execution starts when 'next()' is called for the first time."
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... try:
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... while True:
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... try:
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... value = (yield value)
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... except Exception, e:
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... value = e
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... finally:
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... print "Don't forget to clean up when 'close()' is called."
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...
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>>> generator = echo(1)
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>>> print generator.next()
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Execution starts when 'next()' is called for the first time.
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1
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>>> print generator.next()
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None
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>>> print generator.send(2)
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2
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>>> generator.throw(TypeError, "spam")
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TypeError('spam',)
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>>> generator.close()
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Don't forget to clean up when 'close()' is called.
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.. seealso::
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:pep:`0342` - Coroutines via Enhanced Generators
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The proposal to enhance the API and syntax of generators, making them usable as
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simple coroutines.
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.. _primaries:
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Primaries
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=========
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.. index:: single: primary
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Primaries represent the most tightly bound operations of the language. Their
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syntax is:
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.. productionlist::
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primary: `atom` | `attributeref` | `subscription` | `slicing` | `call`
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.. _attribute-references:
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Attribute references
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--------------------
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.. index:: pair: attribute; reference
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An attribute reference is a primary followed by a period and a name:
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.. productionlist::
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attributeref: `primary` "." `identifier`
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.. index::
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exception: AttributeError
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object: module
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object: list
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The primary must evaluate to an object of a type that supports attribute
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references, e.g., a module, list, or an instance. This object is then asked to
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produce the attribute whose name is the identifier. If this attribute is not
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available, the exception :exc:`AttributeError` is raised. Otherwise, the type
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and value of the object produced is determined by the object. Multiple
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evaluations of the same attribute reference may yield different objects.
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.. _subscriptions:
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Subscriptions
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-------------
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.. index:: single: subscription
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.. index::
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object: sequence
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object: mapping
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object: string
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object: tuple
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object: list
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object: dictionary
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pair: sequence; item
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A subscription selects an item of a sequence (string, tuple or list) or mapping
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(dictionary) object:
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.. productionlist::
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subscription: `primary` "[" `expression_list` "]"
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The primary must evaluate to an object of a sequence or mapping type.
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If the primary is a mapping, the expression list must evaluate to an object
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whose value is one of the keys of the mapping, and the subscription selects the
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value in the mapping that corresponds to that key. (The expression list is a
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tuple except if it has exactly one item.)
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If the primary is a sequence, the expression (list) must evaluate to a plain
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integer. If this value is negative, the length of the sequence is added to it
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(so that, e.g., ``x[-1]`` selects the last item of ``x``.) The resulting value
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must be a nonnegative integer less than the number of items in the sequence, and
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the subscription selects the item whose index is that value (counting from
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zero).
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.. index::
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single: character
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pair: string; item
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A string's items are characters. A character is not a separate data type but a
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string of exactly one character.
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.. _slicings:
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Slicings
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--------
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.. index::
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single: slicing
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single: slice
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.. index::
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object: sequence
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object: string
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object: tuple
|
|
object: list
|
|
|
|
A slicing selects a range of items in a sequence object (e.g., a string, tuple
|
|
or list). Slicings may be used as expressions or as targets in assignment or
|
|
:keyword:`del` statements. The syntax for a slicing:
|
|
|
|
.. productionlist::
|
|
slicing: `simple_slicing` | `extended_slicing`
|
|
simple_slicing: `primary` "[" `short_slice` "]"
|
|
extended_slicing: `primary` "[" `slice_list` "]"
|
|
slice_list: `slice_item` ("," `slice_item`)* [","]
|
|
slice_item: `expression` | `proper_slice` | `ellipsis`
|
|
proper_slice: `short_slice` | `long_slice`
|
|
short_slice: [`lower_bound`] ":" [`upper_bound`]
|
|
long_slice: `short_slice` ":" [`stride`]
|
|
lower_bound: `expression`
|
|
upper_bound: `expression`
|
|
stride: `expression`
|
|
ellipsis: "..."
|
|
|
|
.. index:: pair: extended; slicing
|
|
|
|
There is ambiguity in the formal syntax here: anything that looks like an
|
|
expression list also looks like a slice list, so any subscription can be
|
|
interpreted as a slicing. Rather than further complicating the syntax, this is
|
|
disambiguated by defining that in this case the interpretation as a subscription
|
|
takes priority over the interpretation as a slicing (this is the case if the
|
|
slice list contains no proper slice nor ellipses). Similarly, when the slice
|
|
list has exactly one short slice and no trailing comma, the interpretation as a
|
|
simple slicing takes priority over that as an extended slicing.
|
|
|
|
The semantics for a simple slicing are as follows. The primary must evaluate to
|
|
a sequence object. The lower and upper bound expressions, if present, must
|
|
evaluate to plain integers; defaults are zero and the ``sys.maxint``,
|
|
respectively. If either bound is negative, the sequence's length is added to
|
|
it. The slicing now selects all items with index *k* such that ``i <= k < j``
|
|
where *i* and *j* are the specified lower and upper bounds. This may be an
|
|
empty sequence. It is not an error if *i* or *j* lie outside the range of valid
|
|
indexes (such items don't exist so they aren't selected).
|
|
|
|
.. index::
|
|
single: start (slice object attribute)
|
|
single: stop (slice object attribute)
|
|
single: step (slice object attribute)
|
|
|
|
The semantics for an extended slicing are as follows. The primary must evaluate
|
|
to a mapping object, and it is indexed with a key that is constructed from the
|
|
slice list, as follows. If the slice list contains at least one comma, the key
|
|
is a tuple containing the conversion of the slice items; otherwise, the
|
|
conversion of the lone slice item is the key. The conversion of a slice item
|
|
that is an expression is that expression. The conversion of an ellipsis slice
|
|
item is the built-in ``Ellipsis`` object. The conversion of a proper slice is a
|
|
slice object (see section :ref:`types`) whose :attr:`start`, :attr:`stop` and
|
|
:attr:`step` attributes are the values of the expressions given as lower bound,
|
|
upper bound and stride, respectively, substituting ``None`` for missing
|
|
expressions.
|
|
|
|
|
|
.. _calls:
|
|
|
|
Calls
|
|
-----
|
|
|
|
.. index:: single: call
|
|
|
|
.. index:: object: callable
|
|
|
|
A call calls a callable object (e.g., a function) with a possibly empty series
|
|
of arguments:
|
|
|
|
.. productionlist::
|
|
call: `primary` "(" [`argument_list` [","]
|
|
: | `expression` `genexpr_for`] ")"
|
|
argument_list: `positional_arguments` ["," `keyword_arguments`]
|
|
: ["," "*" `expression`] ["," `keyword_arguments`]
|
|
: ["," "**" `expression`]
|
|
: | `keyword_arguments` ["," "*" `expression`]
|
|
: ["," "**" `expression`]
|
|
: | "*" `expression` ["," "*" `expression`] ["," "**" `expression`]
|
|
: | "**" `expression`
|
|
positional_arguments: `expression` ("," `expression`)*
|
|
keyword_arguments: `keyword_item` ("," `keyword_item`)*
|
|
keyword_item: `identifier` "=" `expression`
|
|
|
|
A trailing comma may be present after the positional and keyword arguments but
|
|
does not affect the semantics.
|
|
|
|
The primary must evaluate to a callable object (user-defined functions, built-in
|
|
functions, methods of built-in objects, class objects, methods of class
|
|
instances, and certain class instances themselves are callable; extensions may
|
|
define additional callable object types). All argument expressions are
|
|
evaluated before the call is attempted. Please refer to section :ref:`function`
|
|
for the syntax of formal parameter lists.
|
|
|
|
If keyword arguments are present, they are first converted to positional
|
|
arguments, as follows. First, a list of unfilled slots is created for the
|
|
formal parameters. If there are N positional arguments, they are placed in the
|
|
first N slots. Next, for each keyword argument, the identifier is used to
|
|
determine the corresponding slot (if the identifier is the same as the first
|
|
formal parameter name, the first slot is used, and so on). If the slot is
|
|
already filled, a :exc:`TypeError` exception is raised. Otherwise, the value of
|
|
the argument is placed in the slot, filling it (even if the expression is
|
|
``None``, it fills the slot). When all arguments have been processed, the slots
|
|
that are still unfilled are filled with the corresponding default value from the
|
|
function definition. (Default values are calculated, once, when the function is
|
|
defined; thus, a mutable object such as a list or dictionary used as default
|
|
value will be shared by all calls that don't specify an argument value for the
|
|
corresponding slot; this should usually be avoided.) If there are any unfilled
|
|
slots for which no default value is specified, a :exc:`TypeError` exception is
|
|
raised. Otherwise, the list of filled slots is used as the argument list for
|
|
the call.
|
|
|
|
.. note::
|
|
|
|
An implementation may provide builtin functions whose positional parameters do
|
|
not have names, even if they are 'named' for the purpose of documentation, and
|
|
which therefore cannot be supplied by keyword. In CPython, this is the case for
|
|
functions implemented in C that use :cfunc:`PyArg_ParseTuple` to parse their
|
|
arguments.
|
|
|
|
If there are more positional arguments than there are formal parameter slots, a
|
|
:exc:`TypeError` exception is raised, unless a formal parameter using the syntax
|
|
``*identifier`` is present; in this case, that formal parameter receives a tuple
|
|
containing the excess positional arguments (or an empty tuple if there were no
|
|
excess positional arguments).
|
|
|
|
If any keyword argument does not correspond to a formal parameter name, a
|
|
:exc:`TypeError` exception is raised, unless a formal parameter using the syntax
|
|
``**identifier`` is present; in this case, that formal parameter receives a
|
|
dictionary containing the excess keyword arguments (using the keywords as keys
|
|
and the argument values as corresponding values), or a (new) empty dictionary if
|
|
there were no excess keyword arguments.
|
|
|
|
If the syntax ``*expression`` appears in the function call, ``expression`` must
|
|
evaluate to a sequence. Elements from this sequence are treated as if they were
|
|
additional positional arguments; if there are positional arguments *x1*,...,
|
|
*xN*, and ``expression`` evaluates to a sequence *y1*, ..., *yM*, this is
|
|
equivalent to a call with M+N positional arguments *x1*, ..., *xN*, *y1*, ...,
|
|
*yM*.
|
|
|
|
A consequence of this is that although the ``*expression`` syntax may appear
|
|
*after* some keyword arguments, it is processed *before* the keyword arguments
|
|
(and the ``**expression`` argument, if any -- see below). So::
|
|
|
|
>>> def f(a, b):
|
|
... print a, b
|
|
...
|
|
>>> f(b=1, *(2,))
|
|
2 1
|
|
>>> f(a=1, *(2,))
|
|
Traceback (most recent call last):
|
|
File "<stdin>", line 1, in ?
|
|
TypeError: f() got multiple values for keyword argument 'a'
|
|
>>> f(1, *(2,))
|
|
1 2
|
|
|
|
It is unusual for both keyword arguments and the ``*expression`` syntax to be
|
|
used in the same call, so in practice this confusion does not arise.
|
|
|
|
If the syntax ``**expression`` appears in the function call, ``expression`` must
|
|
evaluate to a mapping, the contents of which are treated as additional keyword
|
|
arguments. In the case of a keyword appearing in both ``expression`` and as an
|
|
explicit keyword argument, a :exc:`TypeError` exception is raised.
|
|
|
|
Formal parameters using the syntax ``*identifier`` or ``**identifier`` cannot be
|
|
used as positional argument slots or as keyword argument names. Formal
|
|
parameters using the syntax ``(sublist)`` cannot be used as keyword argument
|
|
names; the outermost sublist corresponds to a single unnamed argument slot, and
|
|
the argument value is assigned to the sublist using the usual tuple assignment
|
|
rules after all other parameter processing is done.
|
|
|
|
A call always returns some value, possibly ``None``, unless it raises an
|
|
exception. How this value is computed depends on the type of the callable
|
|
object.
|
|
|
|
If it is---
|
|
|
|
a user-defined function:
|
|
.. index::
|
|
pair: function; call
|
|
triple: user-defined; function; call
|
|
object: user-defined function
|
|
object: function
|
|
|
|
The code block for the function is executed, passing it the argument list. The
|
|
first thing the code block will do is bind the formal parameters to the
|
|
arguments; this is described in section :ref:`function`. When the code block
|
|
executes a :keyword:`return` statement, this specifies the return value of the
|
|
function call.
|
|
|
|
a built-in function or method:
|
|
.. index::
|
|
pair: function; call
|
|
pair: built-in function; call
|
|
pair: method; call
|
|
pair: built-in method; call
|
|
object: built-in method
|
|
object: built-in function
|
|
object: method
|
|
object: function
|
|
|
|
The result is up to the interpreter; see :ref:`built-in-funcs` for the
|
|
descriptions of built-in functions and methods.
|
|
|
|
a class object:
|
|
.. index::
|
|
object: class
|
|
pair: class object; call
|
|
|
|
A new instance of that class is returned.
|
|
|
|
a class instance method:
|
|
.. index::
|
|
object: class instance
|
|
object: instance
|
|
pair: class instance; call
|
|
|
|
The corresponding user-defined function is called, with an argument list that is
|
|
one longer than the argument list of the call: the instance becomes the first
|
|
argument.
|
|
|
|
a class instance:
|
|
.. index::
|
|
pair: instance; call
|
|
single: __call__() (object method)
|
|
|
|
The class must define a :meth:`__call__` method; the effect is then the same as
|
|
if that method was called.
|
|
|
|
|
|
.. _power:
|
|
|
|
The power operator
|
|
==================
|
|
|
|
The power operator binds more tightly than unary operators on its left; it binds
|
|
less tightly than unary operators on its right. The syntax is:
|
|
|
|
.. productionlist::
|
|
power: `primary` ["**" `u_expr`]
|
|
|
|
Thus, in an unparenthesized sequence of power and unary operators, the operators
|
|
are evaluated from right to left (this does not constrain the evaluation order
|
|
for the operands): ``-1**2`` results in ``-1``.
|
|
|
|
The power operator has the same semantics as the built-in :func:`pow` function,
|
|
when called with two arguments: it yields its left argument raised to the power
|
|
of its right argument. The numeric arguments are first converted to a common
|
|
type. The result type is that of the arguments after coercion.
|
|
|
|
With mixed operand types, the coercion rules for binary arithmetic operators
|
|
apply. For int and long int operands, the result has the same type as the
|
|
operands (after coercion) unless the second argument is negative; in that case,
|
|
all arguments are converted to float and a float result is delivered. For
|
|
example, ``10**2`` returns ``100``, but ``10**-2`` returns ``0.01``. (This last
|
|
feature was added in Python 2.2. In Python 2.1 and before, if both arguments
|
|
were of integer types and the second argument was negative, an exception was
|
|
raised).
|
|
|
|
Raising ``0.0`` to a negative power results in a :exc:`ZeroDivisionError`.
|
|
Raising a negative number to a fractional power results in a :exc:`ValueError`.
|
|
|
|
|
|
.. _unary:
|
|
|
|
Unary arithmetic and bitwise operations
|
|
=======================================
|
|
|
|
.. index::
|
|
triple: unary; arithmetic; operation
|
|
triple: unary; bitwise; operation
|
|
|
|
All unary arithmetic and bitwise operations have the same priority:
|
|
|
|
.. productionlist::
|
|
u_expr: `power` | "-" `u_expr` | "+" `u_expr` | "~" `u_expr`
|
|
|
|
.. index::
|
|
single: negation
|
|
single: minus
|
|
|
|
The unary ``-`` (minus) operator yields the negation of its numeric argument.
|
|
|
|
.. index:: single: plus
|
|
|
|
The unary ``+`` (plus) operator yields its numeric argument unchanged.
|
|
|
|
.. index:: single: inversion
|
|
|
|
The unary ``~`` (invert) operator yields the bitwise inversion of its plain or
|
|
long integer argument. The bitwise inversion of ``x`` is defined as
|
|
``-(x+1)``. It only applies to integral numbers.
|
|
|
|
.. index:: exception: TypeError
|
|
|
|
In all three cases, if the argument does not have the proper type, a
|
|
:exc:`TypeError` exception is raised.
|
|
|
|
|
|
.. _binary:
|
|
|
|
Binary arithmetic operations
|
|
============================
|
|
|
|
.. index:: triple: binary; arithmetic; operation
|
|
|
|
The binary arithmetic operations have the conventional priority levels. Note
|
|
that some of these operations also apply to certain non-numeric types. Apart
|
|
from the power operator, there are only two levels, one for multiplicative
|
|
operators and one for additive operators:
|
|
|
|
.. productionlist::
|
|
m_expr: `u_expr` | `m_expr` "*" `u_expr` | `m_expr` "//" `u_expr` | `m_expr` "/" `u_expr`
|
|
: | `m_expr` "%" `u_expr`
|
|
a_expr: `m_expr` | `a_expr` "+" `m_expr` | `a_expr` "-" `m_expr`
|
|
|
|
.. index:: single: multiplication
|
|
|
|
The ``*`` (multiplication) operator yields the product of its arguments. The
|
|
arguments must either both be numbers, or one argument must be an integer (plain
|
|
or long) and the other must be a sequence. In the former case, the numbers are
|
|
converted to a common type and then multiplied together. In the latter case,
|
|
sequence repetition is performed; a negative repetition factor yields an empty
|
|
sequence.
|
|
|
|
.. index::
|
|
exception: ZeroDivisionError
|
|
single: division
|
|
|
|
The ``/`` (division) and ``//`` (floor division) operators yield the quotient of
|
|
their arguments. The numeric arguments are first converted to a common type.
|
|
Plain or long integer division yields an integer of the same type; the result is
|
|
that of mathematical division with the 'floor' function applied to the result.
|
|
Division by zero raises the :exc:`ZeroDivisionError` exception.
|
|
|
|
.. index:: single: modulo
|
|
|
|
The ``%`` (modulo) operator yields the remainder from the division of the first
|
|
argument by the second. The numeric arguments are first converted to a common
|
|
type. A zero right argument raises the :exc:`ZeroDivisionError` exception. The
|
|
arguments may be floating point numbers, e.g., ``3.14%0.7`` equals ``0.34``
|
|
(since ``3.14`` equals ``4*0.7 + 0.34``.) The modulo operator always yields a
|
|
result with the same sign as its second operand (or zero); the absolute value of
|
|
the result is strictly smaller than the absolute value of the second operand
|
|
[#]_.
|
|
|
|
The integer division and modulo operators are connected by the following
|
|
identity: ``x == (x/y)*y + (x%y)``. Integer division and modulo are also
|
|
connected with the built-in function :func:`divmod`: ``divmod(x, y) == (x/y,
|
|
x%y)``. These identities don't hold for floating point numbers; there similar
|
|
identities hold approximately where ``x/y`` is replaced by ``floor(x/y)`` or
|
|
``floor(x/y) - 1`` [#]_.
|
|
|
|
In addition to performing the modulo operation on numbers, the ``%`` operator is
|
|
also overloaded by string and unicode objects to perform string formatting (also
|
|
known as interpolation). The syntax for string formatting is described in the
|
|
Python Library Reference, section :ref:`string-formatting`.
|
|
|
|
.. deprecated:: 2.3
|
|
The floor division operator, the modulo operator, and the :func:`divmod`
|
|
function are no longer defined for complex numbers. Instead, convert to a
|
|
floating point number using the :func:`abs` function if appropriate.
|
|
|
|
.. index:: single: addition
|
|
|
|
The ``+`` (addition) operator yields the sum of its arguments. The arguments
|
|
must either both be numbers or both sequences of the same type. In the former
|
|
case, the numbers are converted to a common type and then added together. In
|
|
the latter case, the sequences are concatenated.
|
|
|
|
.. index:: single: subtraction
|
|
|
|
The ``-`` (subtraction) operator yields the difference of its arguments. The
|
|
numeric arguments are first converted to a common type.
|
|
|
|
|
|
.. _shifting:
|
|
|
|
Shifting operations
|
|
===================
|
|
|
|
.. index:: pair: shifting; operation
|
|
|
|
The shifting operations have lower priority than the arithmetic operations:
|
|
|
|
.. productionlist::
|
|
shift_expr: `a_expr` | `shift_expr` ( "<<" | ">>" ) `a_expr`
|
|
|
|
These operators accept plain or long integers as arguments. The arguments are
|
|
converted to a common type. They shift the first argument to the left or right
|
|
by the number of bits given by the second argument.
|
|
|
|
.. index:: exception: ValueError
|
|
|
|
A right shift by *n* bits is defined as division by ``pow(2, n)``. A left shift
|
|
by *n* bits is defined as multiplication with ``pow(2, n)``. Negative shift
|
|
counts raise a :exc:`ValueError` exception.
|
|
|
|
|
|
.. _bitwise:
|
|
|
|
Binary bitwise operations
|
|
=========================
|
|
|
|
.. index:: triple: binary; bitwise; operation
|
|
|
|
Each of the three bitwise operations has a different priority level:
|
|
|
|
.. productionlist::
|
|
and_expr: `shift_expr` | `and_expr` "&" `shift_expr`
|
|
xor_expr: `and_expr` | `xor_expr` "^" `and_expr`
|
|
or_expr: `xor_expr` | `or_expr` "|" `xor_expr`
|
|
|
|
.. index:: pair: bitwise; and
|
|
|
|
The ``&`` operator yields the bitwise AND of its arguments, which must be plain
|
|
or long integers. The arguments are converted to a common type.
|
|
|
|
.. index::
|
|
pair: bitwise; xor
|
|
pair: exclusive; or
|
|
|
|
The ``^`` operator yields the bitwise XOR (exclusive OR) of its arguments, which
|
|
must be plain or long integers. The arguments are converted to a common type.
|
|
|
|
.. index::
|
|
pair: bitwise; or
|
|
pair: inclusive; or
|
|
|
|
The ``|`` operator yields the bitwise (inclusive) OR of its arguments, which
|
|
must be plain or long integers. The arguments are converted to a common type.
|
|
|
|
|
|
.. _comparisons:
|
|
.. _is:
|
|
.. _isnot:
|
|
.. _in:
|
|
.. _notin:
|
|
|
|
Comparisons
|
|
===========
|
|
|
|
.. index:: single: comparison
|
|
|
|
.. index:: pair: C; language
|
|
|
|
Unlike C, all comparison operations in Python have the same priority, which is
|
|
lower than that of any arithmetic, shifting or bitwise operation. Also unlike
|
|
C, expressions like ``a < b < c`` have the interpretation that is conventional
|
|
in mathematics:
|
|
|
|
.. productionlist::
|
|
comparison: `or_expr` ( `comp_operator` `or_expr` )*
|
|
comp_operator: "<" | ">" | "==" | ">=" | "<=" | "<>" | "!="
|
|
: | "is" ["not"] | ["not"] "in"
|
|
|
|
Comparisons yield boolean values: ``True`` or ``False``.
|
|
|
|
.. index:: pair: chaining; comparisons
|
|
|
|
Comparisons can be chained arbitrarily, e.g., ``x < y <= z`` is equivalent to
|
|
``x < y and y <= z``, except that ``y`` is evaluated only once (but in both
|
|
cases ``z`` is not evaluated at all when ``x < y`` is found to be false).
|
|
|
|
Formally, if *a*, *b*, *c*, ..., *y*, *z* are expressions and *op1*, *op2*, ...,
|
|
*opN* are comparison operators, then ``a op1 b op2 c ... y opN z`` is equivalent
|
|
to ``a op1 b and b op2 c and ... y opN z``, except that each expression is
|
|
evaluated at most once.
|
|
|
|
Note that ``a op1 b op2 c`` doesn't imply any kind of comparison between *a* and
|
|
*c*, so that, e.g., ``x < y > z`` is perfectly legal (though perhaps not
|
|
pretty).
|
|
|
|
The forms ``<>`` and ``!=`` are equivalent; for consistency with C, ``!=`` is
|
|
preferred; where ``!=`` is mentioned below ``<>`` is also accepted. The ``<>``
|
|
spelling is considered obsolescent.
|
|
|
|
The operators ``<``, ``>``, ``==``, ``>=``, ``<=``, and ``!=`` compare the
|
|
values of two objects. The objects need not have the same type. If both are
|
|
numbers, they are converted to a common type. Otherwise, objects of different
|
|
types *always* compare unequal, and are ordered consistently but arbitrarily.
|
|
You can control comparison behavior of objects of non-builtin types by defining
|
|
a ``__cmp__`` method or rich comparison methods like ``__gt__``, described in
|
|
section :ref:`specialnames`.
|
|
|
|
(This unusual definition of comparison was used to simplify the definition of
|
|
operations like sorting and the :keyword:`in` and :keyword:`not in` operators.
|
|
In the future, the comparison rules for objects of different types are likely to
|
|
change.)
|
|
|
|
Comparison of objects of the same type depends on the type:
|
|
|
|
* Numbers are compared arithmetically.
|
|
|
|
* Strings are compared lexicographically using the numeric equivalents (the
|
|
result of the built-in function :func:`ord`) of their characters. Unicode and
|
|
8-bit strings are fully interoperable in this behavior. [#]_
|
|
|
|
* Tuples and lists are compared lexicographically using comparison of
|
|
corresponding elements. This means that to compare equal, each element must
|
|
compare equal and the two sequences must be of the same type and have the same
|
|
length.
|
|
|
|
If not equal, the sequences are ordered the same as their first differing
|
|
elements. For example, ``cmp([1,2,x], [1,2,y])`` returns the same as
|
|
``cmp(x,y)``. If the corresponding element does not exist, the shorter sequence
|
|
is ordered first (for example, ``[1,2] < [1,2,3]``).
|
|
|
|
* Mappings (dictionaries) compare equal if and only if their sorted (key, value)
|
|
lists compare equal. [#]_ Outcomes other than equality are resolved
|
|
consistently, but are not otherwise defined. [#]_
|
|
|
|
* Most other objects of builtin types compare unequal unless they are the same
|
|
object; the choice whether one object is considered smaller or larger than
|
|
another one is made arbitrarily but consistently within one execution of a
|
|
program.
|
|
|
|
The operators :keyword:`in` and :keyword:`not in` test for collection
|
|
membership. ``x in s`` evaluates to true if *x* is a member of the collection
|
|
*s*, and false otherwise. ``x not in s`` returns the negation of ``x in s``.
|
|
The collection membership test has traditionally been bound to sequences; an
|
|
object is a member of a collection if the collection is a sequence and contains
|
|
an element equal to that object. However, it make sense for many other object
|
|
types to support membership tests without being a sequence. In particular,
|
|
dictionaries (for keys) and sets support membership testing.
|
|
|
|
For the list and tuple types, ``x in y`` is true if and only if there exists an
|
|
index *i* such that ``x == y[i]`` is true.
|
|
|
|
For the Unicode and string types, ``x in y`` is true if and only if *x* is a
|
|
substring of *y*. An equivalent test is ``y.find(x) != -1``. Note, *x* and *y*
|
|
need not be the same type; consequently, ``u'ab' in 'abc'`` will return
|
|
``True``. Empty strings are always considered to be a substring of any other
|
|
string, so ``"" in "abc"`` will return ``True``.
|
|
|
|
.. versionchanged:: 2.3
|
|
Previously, *x* was required to be a string of length ``1``.
|
|
|
|
For user-defined classes which define the :meth:`__contains__` method, ``x in
|
|
y`` is true if and only if ``y.__contains__(x)`` is true.
|
|
|
|
For user-defined classes which do not define :meth:`__contains__` and do define
|
|
:meth:`__getitem__`, ``x in y`` is true if and only if there is a non-negative
|
|
integer index *i* such that ``x == y[i]``, and all lower integer indices do not
|
|
raise :exc:`IndexError` exception. (If any other exception is raised, it is as
|
|
if :keyword:`in` raised that exception).
|
|
|
|
.. index::
|
|
operator: in
|
|
operator: not in
|
|
pair: membership; test
|
|
object: sequence
|
|
|
|
The operator :keyword:`not in` is defined to have the inverse true value of
|
|
:keyword:`in`.
|
|
|
|
.. index::
|
|
operator: is
|
|
operator: is not
|
|
pair: identity; test
|
|
|
|
The operators :keyword:`is` and :keyword:`is not` test for object identity: ``x
|
|
is y`` is true if and only if *x* and *y* are the same object. ``x is not y``
|
|
yields the inverse truth value. [#]_
|
|
|
|
|
|
.. _booleans:
|
|
.. _and:
|
|
.. _or:
|
|
.. _not:
|
|
|
|
Boolean operations
|
|
==================
|
|
|
|
.. index::
|
|
pair: Conditional; expression
|
|
pair: Boolean; operation
|
|
|
|
Boolean operations have the lowest priority of all Python operations:
|
|
|
|
.. productionlist::
|
|
expression: `conditional_expression` | `lambda_form`
|
|
old_expression: `or_test` | `old_lambda_form`
|
|
conditional_expression: `or_test` ["if" `or_test` "else" `expression`]
|
|
or_test: `and_test` | `or_test` "or" `and_test`
|
|
and_test: `not_test` | `and_test` "and" `not_test`
|
|
not_test: `comparison` | "not" `not_test`
|
|
|
|
In the context of Boolean operations, and also when expressions are used by
|
|
control flow statements, the following values are interpreted as false:
|
|
``False``, ``None``, numeric zero of all types, and empty strings and containers
|
|
(including strings, tuples, lists, dictionaries, sets and frozensets). All
|
|
other values are interpreted as true. (See the :meth:`~object.__nonzero__`
|
|
special method for a way to change this.)
|
|
|
|
.. index:: operator: not
|
|
|
|
The operator :keyword:`not` yields ``True`` if its argument is false, ``False``
|
|
otherwise.
|
|
|
|
The expression ``x if C else y`` first evaluates *C* (*not* *x*); if *C* is
|
|
true, *x* is evaluated and its value is returned; otherwise, *y* is evaluated
|
|
and its value is returned.
|
|
|
|
.. versionadded:: 2.5
|
|
|
|
.. index:: operator: and
|
|
|
|
The expression ``x and y`` first evaluates *x*; if *x* is false, its value is
|
|
returned; otherwise, *y* is evaluated and the resulting value is returned.
|
|
|
|
.. index:: operator: or
|
|
|
|
The expression ``x or y`` first evaluates *x*; if *x* is true, its value is
|
|
returned; otherwise, *y* is evaluated and the resulting value is returned.
|
|
|
|
(Note that neither :keyword:`and` nor :keyword:`or` restrict the value and type
|
|
they return to ``False`` and ``True``, but rather return the last evaluated
|
|
argument. This is sometimes useful, e.g., if ``s`` is a string that should be
|
|
replaced by a default value if it is empty, the expression ``s or 'foo'`` yields
|
|
the desired value. Because :keyword:`not` has to invent a value anyway, it does
|
|
not bother to return a value of the same type as its argument, so e.g., ``not
|
|
'foo'`` yields ``False``, not ``''``.)
|
|
|
|
|
|
.. _lambdas:
|
|
|
|
Lambdas
|
|
=======
|
|
|
|
.. index::
|
|
pair: lambda; expression
|
|
pair: lambda; form
|
|
pair: anonymous; function
|
|
|
|
.. productionlist::
|
|
lambda_form: "lambda" [`parameter_list`]: `expression`
|
|
old_lambda_form: "lambda" [`parameter_list`]: `old_expression`
|
|
|
|
Lambda forms (lambda expressions) have the same syntactic position as
|
|
expressions. They are a shorthand to create anonymous functions; the expression
|
|
``lambda arguments: expression`` yields a function object. The unnamed object
|
|
behaves like a function object defined with ::
|
|
|
|
def name(arguments):
|
|
return expression
|
|
|
|
See section :ref:`function` for the syntax of parameter lists. Note that
|
|
functions created with lambda forms cannot contain statements.
|
|
|
|
.. _lambda:
|
|
|
|
|
|
.. _exprlists:
|
|
|
|
Expression lists
|
|
================
|
|
|
|
.. index:: pair: expression; list
|
|
|
|
.. productionlist::
|
|
expression_list: `expression` ( "," `expression` )* [","]
|
|
|
|
.. index:: object: tuple
|
|
|
|
An expression list containing at least one comma yields a tuple. The length of
|
|
the tuple is the number of expressions in the list. The expressions are
|
|
evaluated from left to right.
|
|
|
|
.. index:: pair: trailing; comma
|
|
|
|
The trailing comma is required only to create a single tuple (a.k.a. a
|
|
*singleton*); it is optional in all other cases. A single expression without a
|
|
trailing comma doesn't create a tuple, but rather yields the value of that
|
|
expression. (To create an empty tuple, use an empty pair of parentheses:
|
|
``()``.)
|
|
|
|
|
|
.. _evalorder:
|
|
|
|
Evaluation order
|
|
================
|
|
|
|
.. index:: pair: evaluation; order
|
|
|
|
Python evaluates expressions from left to right. Notice that while evaluating an
|
|
assignment, the right-hand side is evaluated before the left-hand side.
|
|
|
|
In the following lines, expressions will be evaluated in the arithmetic order of
|
|
their suffixes::
|
|
|
|
expr1, expr2, expr3, expr4
|
|
(expr1, expr2, expr3, expr4)
|
|
{expr1: expr2, expr3: expr4}
|
|
expr1 + expr2 * (expr3 - expr4)
|
|
expr1(expr2, expr3, *expr4, **expr5)
|
|
expr3, expr4 = expr1, expr2
|
|
|
|
|
|
.. _operator-summary:
|
|
|
|
Summary
|
|
=======
|
|
|
|
.. index:: pair: operator; precedence
|
|
|
|
The following table summarizes the operator precedences in Python, from lowest
|
|
precedence (least binding) to highest precedence (most binding). Operators in
|
|
the same box have the same precedence. Unless the syntax is explicitly given,
|
|
operators are binary. Operators in the same box group left to right (except for
|
|
comparisons, including tests, which all have the same precedence and chain from
|
|
left to right --- see section :ref:`comparisons` --- and exponentiation, which
|
|
groups from right to left).
|
|
|
|
+-----------------------------------------------+-------------------------------------+
|
|
| Operator | Description |
|
|
+===============================================+=====================================+
|
|
| :keyword:`lambda` | Lambda expression |
|
|
+-----------------------------------------------+-------------------------------------+
|
|
| :keyword:`or` | Boolean OR |
|
|
+-----------------------------------------------+-------------------------------------+
|
|
| :keyword:`and` | Boolean AND |
|
|
+-----------------------------------------------+-------------------------------------+
|
|
| :keyword:`not` *x* | Boolean NOT |
|
|
+-----------------------------------------------+-------------------------------------+
|
|
| :keyword:`in`, :keyword:`not` :keyword:`in`, | Comparisons, including membership |
|
|
| :keyword:`is`, :keyword:`is not`, ``<``, | tests and identity tests, |
|
|
| ``<=``, ``>``, ``>=``, ``<>``, ``!=``, ``==`` | |
|
|
+-----------------------------------------------+-------------------------------------+
|
|
| ``|`` | Bitwise OR |
|
|
+-----------------------------------------------+-------------------------------------+
|
|
| ``^`` | Bitwise XOR |
|
|
+-----------------------------------------------+-------------------------------------+
|
|
| ``&`` | Bitwise AND |
|
|
+-----------------------------------------------+-------------------------------------+
|
|
| ``<<``, ``>>`` | Shifts |
|
|
+-----------------------------------------------+-------------------------------------+
|
|
| ``+``, ``-`` | Addition and subtraction |
|
|
+-----------------------------------------------+-------------------------------------+
|
|
| ``*``, ``/``, ``//``, ``%`` | Multiplication, division, remainder |
|
|
+-----------------------------------------------+-------------------------------------+
|
|
| ``+x``, ``-x``, ``~x`` | Positive, negative, bitwise NOT |
|
|
+-----------------------------------------------+-------------------------------------+
|
|
| ``**`` | Exponentiation [#]_ |
|
|
+-----------------------------------------------+-------------------------------------+
|
|
| ``x[index]``, ``x[index:index]``, | Subscription, slicing, |
|
|
| ``x(arguments...)``, ``x.attribute`` | call, attribute reference |
|
|
+-----------------------------------------------+-------------------------------------+
|
|
| ``(expressions...)``, | Binding or tuple display, |
|
|
| ``[expressions...]``, | list display, |
|
|
| ``{key:datum...}``, | dictionary display, |
|
|
| ```expressions...``` | string conversion |
|
|
+-----------------------------------------------+-------------------------------------+
|
|
|
|
.. rubric:: Footnotes
|
|
|
|
.. [#] In Python 2.3 and later releases, a list comprehension "leaks" the control
|
|
variables of each ``for`` it contains into the containing scope. However, this
|
|
behavior is deprecated, and relying on it will not work in Python 3.0
|
|
|
|
.. [#] While ``abs(x%y) < abs(y)`` is true mathematically, for floats it may not be
|
|
true numerically due to roundoff. For example, and assuming a platform on which
|
|
a Python float is an IEEE 754 double-precision number, in order that ``-1e-100 %
|
|
1e100`` have the same sign as ``1e100``, the computed result is ``-1e-100 +
|
|
1e100``, which is numerically exactly equal to ``1e100``. Function :func:`fmod`
|
|
in the :mod:`math` module returns a result whose sign matches the sign of the
|
|
first argument instead, and so returns ``-1e-100`` in this case. Which approach
|
|
is more appropriate depends on the application.
|
|
|
|
.. [#] If x is very close to an exact integer multiple of y, it's possible for
|
|
``floor(x/y)`` to be one larger than ``(x-x%y)/y`` due to rounding. In such
|
|
cases, Python returns the latter result, in order to preserve that
|
|
``divmod(x,y)[0] * y + x % y`` be very close to ``x``.
|
|
|
|
.. [#] While comparisons between unicode strings make sense at the byte
|
|
level, they may be counter-intuitive to users. For example, the
|
|
strings ``u"\u00C7"`` and ``u"\u0043\u0327"`` compare differently,
|
|
even though they both represent the same unicode character (LATIN
|
|
CAPTITAL LETTER C WITH CEDILLA). To compare strings in a human
|
|
recognizable way, compare using :func:`unicodedata.normalize`.
|
|
|
|
.. [#] The implementation computes this efficiently, without constructing lists or
|
|
sorting.
|
|
|
|
.. [#] Earlier versions of Python used lexicographic comparison of the sorted (key,
|
|
value) lists, but this was very expensive for the common case of comparing for
|
|
equality. An even earlier version of Python compared dictionaries by identity
|
|
only, but this caused surprises because people expected to be able to test a
|
|
dictionary for emptiness by comparing it to ``{}``.
|
|
|
|
.. [#] Due to automatic garbage-collection, free lists, and the dynamic nature of
|
|
descriptors, you may notice seemingly unusual behaviour in certain uses of
|
|
the :keyword:`is` operator, like those involving comparisons between instance
|
|
methods, or constants. Check their documentation for more info.
|
|
|
|
.. [#] The power operator ``**`` binds less tightly than an arithmetic or
|
|
bitwise unary operator on its right, that is, ``2**-1`` is ``0.5``.
|