mirror of https://github.com/python/cpython
554 lines
22 KiB
ReStructuredText
554 lines
22 KiB
ReStructuredText
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.. _compound:
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*******************
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Compound statements
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*******************
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.. index:: pair: compound; statement
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Compound statements contain (groups of) other statements; they affect or control
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the execution of those other statements in some way. In general, compound
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statements span multiple lines, although in simple incarnations a whole compound
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statement may be contained in one line.
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The :keyword:`if`, :keyword:`while` and :keyword:`for` statements implement
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traditional control flow constructs. :keyword:`try` specifies exception
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handlers and/or cleanup code for a group of statements. Function and class
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definitions are also syntactically compound statements.
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.. index::
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single: clause
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single: suite
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Compound statements consist of one or more 'clauses.' A clause consists of a
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header and a 'suite.' The clause headers of a particular compound statement are
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all at the same indentation level. Each clause header begins with a uniquely
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identifying keyword and ends with a colon. A suite is a group of statements
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controlled by a clause. A suite can be one or more semicolon-separated simple
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statements on the same line as the header, following the header's colon, or it
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can be one or more indented statements on subsequent lines. Only the latter
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form of suite can contain nested compound statements; the following is illegal,
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mostly because it wouldn't be clear to which :keyword:`if` clause a following
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:keyword:`else` clause would belong: ::
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if test1: if test2: print x
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Also note that the semicolon binds tighter than the colon in this context, so
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that in the following example, either all or none of the :keyword:`print`
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statements are executed::
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if x < y < z: print x; print y; print z
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Summarizing:
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.. productionlist::
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compound_stmt: `if_stmt`
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: | `while_stmt`
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: | `for_stmt`
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: | `try_stmt`
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: | `with_stmt`
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: | `funcdef`
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: | `classdef`
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: | `decorated`
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suite: `stmt_list` NEWLINE | NEWLINE INDENT `statement`+ DEDENT
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statement: `stmt_list` NEWLINE | `compound_stmt`
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stmt_list: `simple_stmt` (";" `simple_stmt`)* [";"]
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.. index::
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single: NEWLINE token
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single: DEDENT token
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pair: dangling; else
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Note that statements always end in a ``NEWLINE`` possibly followed by a
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``DEDENT``. Also note that optional continuation clauses always begin with a
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keyword that cannot start a statement, thus there are no ambiguities (the
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'dangling :keyword:`else`' problem is solved in Python by requiring nested
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:keyword:`if` statements to be indented).
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The formatting of the grammar rules in the following sections places each clause
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on a separate line for clarity.
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.. _if:
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.. _elif:
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.. _else:
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The :keyword:`if` statement
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===========================
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.. index::
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statement: if
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keyword: elif
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keyword: else
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The :keyword:`if` statement is used for conditional execution:
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.. productionlist::
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if_stmt: "if" `expression` ":" `suite`
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: ( "elif" `expression` ":" `suite` )*
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: ["else" ":" `suite`]
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It selects exactly one of the suites by evaluating the expressions one by one
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until one is found to be true (see section :ref:`booleans` for the definition of
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true and false); then that suite is executed (and no other part of the
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:keyword:`if` statement is executed or evaluated). If all expressions are
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false, the suite of the :keyword:`else` clause, if present, is executed.
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.. _while:
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The :keyword:`while` statement
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==============================
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.. index::
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statement: while
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pair: loop; statement
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keyword: else
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The :keyword:`while` statement is used for repeated execution as long as an
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expression is true:
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.. productionlist::
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while_stmt: "while" `expression` ":" `suite`
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: ["else" ":" `suite`]
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This repeatedly tests the expression and, if it is true, executes the first
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suite; if the expression is false (which may be the first time it is tested) the
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suite of the :keyword:`else` clause, if present, is executed and the loop
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terminates.
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.. index::
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statement: break
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statement: continue
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A :keyword:`break` statement executed in the first suite terminates the loop
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without executing the :keyword:`else` clause's suite. A :keyword:`continue`
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statement executed in the first suite skips the rest of the suite and goes back
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to testing the expression.
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.. _for:
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The :keyword:`for` statement
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============================
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.. index::
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statement: for
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pair: loop; statement
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keyword: in
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keyword: else
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pair: target; list
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object: sequence
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The :keyword:`for` statement is used to iterate over the elements of a sequence
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(such as a string, tuple or list) or other iterable object:
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.. productionlist::
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for_stmt: "for" `target_list` "in" `expression_list` ":" `suite`
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: ["else" ":" `suite`]
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The expression list is evaluated once; it should yield an iterable object. An
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iterator is created for the result of the ``expression_list``. The suite is
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then executed once for each item provided by the iterator, in the order of
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ascending indices. Each item in turn is assigned to the target list using the
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standard rules for assignments, and then the suite is executed. When the items
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are exhausted (which is immediately when the sequence is empty), the suite in
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the :keyword:`else` clause, if present, is executed, and the loop terminates.
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.. index::
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statement: break
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statement: continue
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A :keyword:`break` statement executed in the first suite terminates the loop
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without executing the :keyword:`else` clause's suite. A :keyword:`continue`
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statement executed in the first suite skips the rest of the suite and continues
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with the next item, or with the :keyword:`else` clause if there was no next
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item.
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The suite may assign to the variable(s) in the target list; this does not affect
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the next item assigned to it.
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.. index::
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builtin: range
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pair: Pascal; language
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The target list is not deleted when the loop is finished, but if the sequence is
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empty, it will not have been assigned to at all by the loop. Hint: the built-in
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function :func:`range` returns a sequence of integers suitable to emulate the
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effect of Pascal's ``for i := a to b do``; e.g., ``range(3)`` returns the list
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``[0, 1, 2]``.
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.. warning::
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.. index::
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single: loop; over mutable sequence
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single: mutable sequence; loop over
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There is a subtlety when the sequence is being modified by the loop (this can
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only occur for mutable sequences, i.e. lists). An internal counter is used to
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keep track of which item is used next, and this is incremented on each
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iteration. When this counter has reached the length of the sequence the loop
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terminates. This means that if the suite deletes the current (or a previous)
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item from the sequence, the next item will be skipped (since it gets the index
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of the current item which has already been treated). Likewise, if the suite
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inserts an item in the sequence before the current item, the current item will
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be treated again the next time through the loop. This can lead to nasty bugs
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that can be avoided by making a temporary copy using a slice of the whole
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sequence, e.g.,
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::
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for x in a[:]:
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if x < 0: a.remove(x)
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.. _try:
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.. _except:
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.. _finally:
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The :keyword:`try` statement
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============================
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.. index::
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statement: try
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keyword: except
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keyword: finally
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The :keyword:`try` statement specifies exception handlers and/or cleanup code
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for a group of statements:
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.. productionlist::
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try_stmt: try1_stmt | try2_stmt
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try1_stmt: "try" ":" `suite`
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: ("except" [`expression` ["," `target`]] ":" `suite`)+
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: ["else" ":" `suite`]
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: ["finally" ":" `suite`]
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try2_stmt: "try" ":" `suite`
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: "finally" ":" `suite`
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.. versionchanged:: 2.5
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In previous versions of Python, :keyword:`try`...\ :keyword:`except`...\
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:keyword:`finally` did not work. :keyword:`try`...\ :keyword:`except` had to be
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nested in :keyword:`try`...\ :keyword:`finally`.
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The :keyword:`except` clause(s) specify one or more exception handlers. When no
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exception occurs in the :keyword:`try` clause, no exception handler is executed.
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When an exception occurs in the :keyword:`try` suite, a search for an exception
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handler is started. This search inspects the except clauses in turn until one
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is found that matches the exception. An expression-less except clause, if
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present, must be last; it matches any exception. For an except clause with an
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expression, that expression is evaluated, and the clause matches the exception
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if the resulting object is "compatible" with the exception. An object is
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compatible with an exception if it is the class or a base class of the exception
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object, a tuple containing an item compatible with the exception, or, in the
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(deprecated) case of string exceptions, is the raised string itself (note that
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the object identities must match, i.e. it must be the same string object, not
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just a string with the same value).
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If no except clause matches the exception, the search for an exception handler
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continues in the surrounding code and on the invocation stack. [#]_
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If the evaluation of an expression in the header of an except clause raises an
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exception, the original search for a handler is canceled and a search starts for
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the new exception in the surrounding code and on the call stack (it is treated
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as if the entire :keyword:`try` statement raised the exception).
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When a matching except clause is found, the exception is assigned to the target
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specified in that except clause, if present, and the except clause's suite is
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executed. All except clauses must have an executable block. When the end of
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this block is reached, execution continues normally after the entire try
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statement. (This means that if two nested handlers exist for the same
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exception, and the exception occurs in the try clause of the inner handler, the
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outer handler will not handle the exception.)
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.. index::
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module: sys
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object: traceback
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single: exc_type (in module sys)
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single: exc_value (in module sys)
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single: exc_traceback (in module sys)
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Before an except clause's suite is executed, details about the exception are
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assigned to three variables in the :mod:`sys` module: ``sys.exc_type`` receives
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the object identifying the exception; ``sys.exc_value`` receives the exception's
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parameter; ``sys.exc_traceback`` receives a traceback object (see section
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:ref:`types`) identifying the point in the program where the exception
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occurred. These details are also available through the :func:`sys.exc_info`
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function, which returns a tuple ``(exc_type, exc_value, exc_traceback)``. Use
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of the corresponding variables is deprecated in favor of this function, since
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their use is unsafe in a threaded program. As of Python 1.5, the variables are
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restored to their previous values (before the call) when returning from a
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function that handled an exception.
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.. index::
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keyword: else
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statement: return
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statement: break
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statement: continue
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The optional :keyword:`else` clause is executed if and when control flows off
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the end of the :keyword:`try` clause. [#]_ Exceptions in the :keyword:`else`
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clause are not handled by the preceding :keyword:`except` clauses.
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.. index:: keyword: finally
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If :keyword:`finally` is present, it specifies a 'cleanup' handler. The
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:keyword:`try` clause is executed, including any :keyword:`except` and
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:keyword:`else` clauses. If an exception occurs in any of the clauses and is
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not handled, the exception is temporarily saved. The :keyword:`finally` clause
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is executed. If there is a saved exception, it is re-raised at the end of the
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:keyword:`finally` clause. If the :keyword:`finally` clause raises another
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exception or executes a :keyword:`return` or :keyword:`break` statement, the
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saved exception is lost. The exception information is not available to the
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program during execution of the :keyword:`finally` clause.
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.. index::
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statement: return
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statement: break
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statement: continue
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When a :keyword:`return`, :keyword:`break` or :keyword:`continue` statement is
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executed in the :keyword:`try` suite of a :keyword:`try`...\ :keyword:`finally`
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statement, the :keyword:`finally` clause is also executed 'on the way out.' A
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:keyword:`continue` statement is illegal in the :keyword:`finally` clause. (The
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reason is a problem with the current implementation --- this restriction may be
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lifted in the future).
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Additional information on exceptions can be found in section :ref:`exceptions`,
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and information on using the :keyword:`raise` statement to generate exceptions
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may be found in section :ref:`raise`.
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.. _with:
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.. _as:
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The :keyword:`with` statement
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=============================
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.. index:: statement: with
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.. versionadded:: 2.5
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The :keyword:`with` statement is used to wrap the execution of a block with
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methods defined by a context manager (see section :ref:`context-managers`). This
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allows common :keyword:`try`...\ :keyword:`except`...\ :keyword:`finally` usage
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patterns to be encapsulated for convenient reuse.
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.. productionlist::
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with_stmt: "with" `expression` ["as" `target`] ":" `suite`
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The execution of the :keyword:`with` statement proceeds as follows:
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#. The context expression is evaluated to obtain a context manager.
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#. The context manager's :meth:`__enter__` method is invoked.
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#. If a target was included in the :keyword:`with` statement, the return value
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from :meth:`__enter__` is assigned to it.
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.. note::
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The :keyword:`with` statement guarantees that if the :meth:`__enter__` method
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returns without an error, then :meth:`__exit__` will always be called. Thus, if
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an error occurs during the assignment to the target list, it will be treated the
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same as an error occurring within the suite would be. See step 5 below.
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#. The suite is executed.
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#. The context manager's :meth:`__exit__` method is invoked. If an exception
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caused the suite to be exited, its type, value, and traceback are passed as
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arguments to :meth:`__exit__`. Otherwise, three :const:`None` arguments are
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supplied.
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If the suite was exited due to an exception, and the return value from the
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:meth:`__exit__` method was false, the exception is reraised. If the return
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value was true, the exception is suppressed, and execution continues with the
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statement following the :keyword:`with` statement.
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If the suite was exited for any reason other than an exception, the return value
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from :meth:`__exit__` is ignored, and execution proceeds at the normal location
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for the kind of exit that was taken.
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.. note::
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In Python 2.5, the :keyword:`with` statement is only allowed when the
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``with_statement`` feature has been enabled. It is always enabled in
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Python 2.6.
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.. seealso::
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:pep:`0343` - The "with" statement
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The specification, background, and examples for the Python :keyword:`with`
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statement.
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.. _function:
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.. _def:
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Function definitions
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====================
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.. index::
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statement: def
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pair: function; definition
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pair: function; name
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pair: name; binding
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object: user-defined function
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object: function
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A function definition defines a user-defined function object (see section
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:ref:`types`):
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.. productionlist::
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decorated: decorators (classdef | funcdef)
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decorators: `decorator`+
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decorator: "@" `dotted_name` ["(" [`argument_list` [","]] ")"] NEWLINE
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funcdef: "def" `funcname` "(" [`parameter_list`] ")" ":" `suite`
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dotted_name: `identifier` ("." `identifier`)*
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parameter_list: (`defparameter` ",")*
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: ( "*" `identifier` [, "**" `identifier`]
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: | "**" `identifier`
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: | `defparameter` [","] )
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defparameter: `parameter` ["=" `expression`]
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sublist: `parameter` ("," `parameter`)* [","]
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parameter: `identifier` | "(" `sublist` ")"
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funcname: `identifier`
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A function definition is an executable statement. Its execution binds the
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function name in the current local namespace to a function object (a wrapper
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around the executable code for the function). This function object contains a
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reference to the current global namespace as the global namespace to be used
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when the function is called.
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The function definition does not execute the function body; this gets executed
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only when the function is called.
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.. index::
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statement: @
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A function definition may be wrapped by one or more :term:`decorator` expressions.
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Decorator expressions are evaluated when the function is defined, in the scope
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that contains the function definition. The result must be a callable, which is
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invoked with the function object as the only argument. The returned value is
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bound to the function name instead of the function object. Multiple decorators
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are applied in nested fashion. For example, the following code::
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@f1(arg)
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@f2
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def func(): pass
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is equivalent to::
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def func(): pass
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func = f1(arg)(f2(func))
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.. index:: triple: default; parameter; value
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When one or more top-level parameters have the form *parameter* ``=``
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*expression*, the function is said to have "default parameter values." For a
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parameter with a default value, the corresponding argument may be omitted from a
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call, in which case the parameter's default value is substituted. If a
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parameter has a default value, all following parameters must also have a default
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value --- this is a syntactic restriction that is not expressed by the grammar.
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**Default parameter values are evaluated when the function definition is
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executed.** This means that the expression is evaluated once, when the function
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is defined, and that that same "pre-computed" value is used for each call. This
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is especially important to understand when a default parameter is a mutable
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object, such as a list or a dictionary: if the function modifies the object
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(e.g. by appending an item to a list), the default value is in effect modified.
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This is generally not what was intended. A way around this is to use ``None``
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as the default, and explicitly test for it in the body of the function, e.g.::
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def whats_on_the_telly(penguin=None):
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if penguin is None:
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penguin = []
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penguin.append("property of the zoo")
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return penguin
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.. index::
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statement: *
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statement: **
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Function call semantics are described in more detail in section :ref:`calls`. A
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function call always assigns values to all parameters mentioned in the parameter
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list, either from position arguments, from keyword arguments, or from default
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values. If the form "``*identifier``" is present, it is initialized to a tuple
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receiving any excess positional parameters, defaulting to the empty tuple. If
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the form "``**identifier``" is present, it is initialized to a new dictionary
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receiving any excess keyword arguments, defaulting to a new empty dictionary.
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.. index:: pair: lambda; form
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It is also possible to create anonymous functions (functions not bound to a
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name), for immediate use in expressions. This uses lambda forms, described in
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section :ref:`lambda`. Note that the lambda form is merely a shorthand for a
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simplified function definition; a function defined in a ":keyword:`def`"
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statement can be passed around or assigned to another name just like a function
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defined by a lambda form. The ":keyword:`def`" form is actually more powerful
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since it allows the execution of multiple statements.
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**Programmer's note:** Functions are first-class objects. A "``def``" form
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executed inside a function definition defines a local function that can be
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returned or passed around. Free variables used in the nested function can
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access the local variables of the function containing the def. See section
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:ref:`naming` for details.
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.. _class:
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Class definitions
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=================
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.. index::
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object: class
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statement: class
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pair: class; definition
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pair: class; name
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pair: name; binding
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pair: execution; frame
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single: inheritance
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A class definition defines a class object (see section :ref:`types`):
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.. productionlist::
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classdef: "class" `classname` [`inheritance`] ":" `suite`
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inheritance: "(" [`expression_list`] ")"
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classname: `identifier`
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A class definition is an executable statement. It first evaluates the
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inheritance list, if present. Each item in the inheritance list should evaluate
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to a class object or class type which allows subclassing. The class's suite is
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then executed in a new execution frame (see section :ref:`naming`), using a
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newly created local namespace and the original global namespace. (Usually, the
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suite contains only function definitions.) When the class's suite finishes
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execution, its execution frame is discarded but its local namespace is saved. A
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class object is then created using the inheritance list for the base classes and
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the saved local namespace for the attribute dictionary. The class name is bound
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to this class object in the original local namespace.
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**Programmer's note:** Variables defined in the class definition are class
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variables; they are shared by all instances. To create instance variables, they
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can be set in a method with ``self.name = value``. Both class and instance
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variables are accessible through the notation "``self.name``", and an instance
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variable hides a class variable with the same name when accessed in this way.
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Class variables can be used as defaults for instance variables, but using
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mutable values there can lead to unexpected results. For :term:`new-style
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class`\es, descriptors can be used to create instance variables with different
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implementation details.
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Class definitions, like function definitions, may be wrapped by one or more
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:term:`decorator` expressions. The evaluation rules for the decorator
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expressions are the same as for functions. The result must be a class object,
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which is then bound to the class name.
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.. rubric:: Footnotes
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.. [#] The exception is propagated to the invocation stack only if there is no
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:keyword:`finally` clause that negates the exception.
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.. [#] Currently, control "flows off the end" except in the case of an exception or the
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execution of a :keyword:`return`, :keyword:`continue`, or :keyword:`break`
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statement.
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