mirror of https://github.com/python/cpython
539 lines
19 KiB
TeX
539 lines
19 KiB
TeX
\chapter{Simple statements}
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\indexii{simple}{statement}
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Simple statements are comprised within a single logical line.
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Several simple statements may occur on a single line separated
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by semicolons. The syntax for simple statements is:
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\begin{verbatim}
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simple_stmt: expression_stmt
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| assignment_stmt
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| pass_stmt
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| del_stmt
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| print_stmt
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| return_stmt
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| raise_stmt
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| break_stmt
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| continue_stmt
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| import_stmt
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| global_stmt
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| access_stmt
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| exec_stmt
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\end{verbatim}
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\section{Expression statements}
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\indexii{expression}{statement}
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Expression statements are used (mostly interactively) to compute and
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write a value, or (usually) to call a procedure (a function that
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returns no meaningful result; in Python, procedures return the value
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\verb@None@):
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\begin{verbatim}
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expression_stmt: condition_list
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\end{verbatim}
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An expression statement evaluates the condition list (which may be a
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single condition).
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\indexii{expression}{list}
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In interactive mode, if the value is not \verb@None@, it is converted
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to a string using the rules for string conversions (expressions in
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reverse quotes), and the resulting string is written to standard
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output (see section \ref{print}) on a line by itself.
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(The exception for \verb@None@ is made so that procedure calls, which
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are syntactically equivalent to expressions, do not cause any output.)
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\ttindex{None}
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\indexii{string}{conversion}
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\index{output}
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\indexii{standard}{output}
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\indexii{writing}{values}
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\indexii{procedure}{call}
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\section{Assignment statements}
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\indexii{assignment}{statement}
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Assignment statements are used to (re)bind names to values and to
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modify attributes or items of mutable objects:
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\indexii{binding}{name}
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\indexii{rebinding}{name}
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\obindex{mutable}
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\indexii{attribute}{assignment}
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\begin{verbatim}
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assignment_stmt: (target_list "=")+ expression_list
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target_list: target ("," target)* [","]
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target: identifier | "(" target_list ")" | "[" target_list "]"
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| attributeref | subscription | slicing
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\end{verbatim}
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(See section \ref{primaries} for the syntax definitions for the last
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three symbols.)
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An assignment statement evaluates the expression list (remember that
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this can be a single expression or a comma-separated list, the latter
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yielding a tuple) and assigns the single resulting object to each of
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the target lists, from left to right.
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\indexii{expression}{list}
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Assignment is defined recursively depending on the form of the target
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(list). When a target is part of a mutable object (an attribute
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reference, subscription or slicing), the mutable object must
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ultimately perform the assignment and decide about its validity, and
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may raise an exception if the assignment is unacceptable. The rules
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observed by various types and the exceptions raised are given with the
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definition of the object types (see section \ref{types}).
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\index{target}
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\indexii{target}{list}
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Assignment of an object to a target list is recursively defined as
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follows.
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\indexiii{target}{list}{assignment}
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\begin{itemize}
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\item
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If the target list is a single target: the object is assigned to that
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target.
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\item
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If the target list is a comma-separated list of targets: the object
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must be a tuple with the same number of items as the list contains
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targets, and the items are assigned, from left to right, to the
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corresponding targets.
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\end{itemize}
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Assignment of an object to a single target is recursively defined as
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follows.
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\begin{itemize} % nested
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\item
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If the target is an identifier (name):
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\begin{itemize}
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\item
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If the name does not occur in a \verb@global@ statement in the current
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code block: the name is bound to the object in the current local name
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space.
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\stindex{global}
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\item
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Otherwise: the name is bound to the object in the current global name
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space.
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\end{itemize} % nested
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The name is rebound if it was already bound.
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\item
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If the target is a target list enclosed in parentheses: the object is
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assigned to that target list as described above.
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\item
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If the target is a target list enclosed in square brackets: the object
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must be a list with the same number of items as the target list
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contains targets, and its items are assigned, from left to right, to
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the corresponding targets.
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\item
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If the target is an attribute reference: The primary expression in the
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reference is evaluated. It should yield an object with assignable
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attributes; if this is not the case, \verb@TypeError@ is raised. That
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object is then asked to assign the assigned object to the given
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attribute; if it cannot perform the assignment, it raises an exception
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(usually but not necessarily \verb@AttributeError@).
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\indexii{attribute}{assignment}
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\item
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If the target is a subscription: The primary expression in the
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reference is evaluated. It should yield either a mutable sequence
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(list) object or a mapping (dictionary) object. Next, the subscript
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expression is evaluated.
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\indexii{subscription}{assignment}
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\obindex{mutable}
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If the primary is a mutable sequence object (a list), the subscript
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must yield a plain integer. If it is negative, the sequence's length
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is added to it. The resulting value must be a nonnegative integer
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less than the sequence's length, and the sequence is asked to assign
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the assigned object to its item with that index. If the index is out
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of range, \verb@IndexError@ is raised (assignment to a subscripted
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sequence cannot add new items to a list).
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\obindex{sequence}
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\obindex{list}
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If the primary is a mapping (dictionary) object, the subscript must
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have a type compatible with the mapping's key type, and the mapping is
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then asked to create a key/datum pair which maps the subscript to
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the assigned object. This can either replace an existing key/value
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pair with the same key value, or insert a new key/value pair (if no
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key with the same value existed).
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\obindex{mapping}
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\obindex{dictionary}
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\item
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If the target is a slicing: The primary expression in the reference is
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evaluated. It should yield a mutable sequence object (e.g. a list). The
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assigned object should be a sequence object of the same type. Next,
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the lower and upper bound expressions are evaluated, insofar they are
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present; defaults are zero and the sequence's length. The bounds
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should evaluate to (small) integers. If either bound is negative, the
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sequence's length is added to it. The resulting bounds are clipped to
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lie between zero and the sequence's length, inclusive. Finally, the
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sequence object is asked to replace the slice with the items of the
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assigned sequence. The length of the slice may be different from the
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length of the assigned sequence, thus changing the length of the
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target sequence, if the object allows it.
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\indexii{slicing}{assignment}
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\end{itemize}
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(In the current implementation, the syntax for targets is taken
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to be the same as for expressions, and invalid syntax is rejected
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during the code generation phase, causing less detailed error
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messages.)
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WARNING: Although the definition of assignment implies that overlaps
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between the left-hand side and the right-hand side are `safe' (e.g.
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\verb@a, b = b, a@ swaps two variables), overlaps within the
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collection of assigned-to variables are not safe! For instance, the
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following program prints \code@[0, 2]@:
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\begin{verbatim}
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x = [0, 1]
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i = 0
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i, x[i] = 1, 2
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print x
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\end{verbatim}
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\section{The {\tt pass} statement}
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\stindex{pass}
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\begin{verbatim}
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pass_stmt: "pass"
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\end{verbatim}
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\verb@pass@ is a null operation --- when it is executed, nothing
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happens. It is useful as a placeholder when a statement is
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required syntactically, but no code needs to be executed, for example:
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\indexii{null}{operation}
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\begin{verbatim}
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def f(arg): pass # a function that does nothing (yet)
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class C: pass # a class with no methods (yet)
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\end{verbatim}
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\section{The {\tt del} statement}
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\stindex{del}
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\begin{verbatim}
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del_stmt: "del" target_list
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\end{verbatim}
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Deletion is recursively defined very similar to the way assignment is
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defined. Rather that spelling it out in full details, here are some
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hints.
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\indexii{deletion}{target}
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\indexiii{deletion}{target}{list}
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Deletion of a target list recursively deletes each target, from left
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to right.
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Deletion of a name removes the binding of that name (which must exist)
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from the local or global name space, depending on whether the name
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occurs in a \verb@global@ statement in the same code block.
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\stindex{global}
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\indexii{unbinding}{name}
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Deletion of attribute references, subscriptions and slicings
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is passed to the primary object involved; deletion of a slicing
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is in general equivalent to assignment of an empty slice of the
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right type (but even this is determined by the sliced object).
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\indexii{attribute}{deletion}
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\section{The {\tt print} statement} \label{print}
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\stindex{print}
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\begin{verbatim}
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print_stmt: "print" [ condition ("," condition)* [","] ]
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\end{verbatim}
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\verb@print@ evaluates each condition in turn and writes the resulting
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object to standard output (see below). If an object is not a string,
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it is first converted to a string using the rules for string
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conversions. The (resulting or original) string is then written. A
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space is written before each object is (converted and) written, unless
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the output system believes it is positioned at the beginning of a
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line. This is the case: (1) when no characters have yet been written
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to standard output; or (2) when the last character written to standard
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output is \verb/\n/; or (3) when the last write operation on standard
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output was not a \verb@print@ statement. (In some cases it may be
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functional to write an empty string to standard output for this
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reason.)
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\index{output}
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\indexii{writing}{values}
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A \verb/"\n"/ character is written at the end, unless the \verb@print@
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statement ends with a comma. This is the only action if the statement
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contains just the keyword \verb@print@.
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\indexii{trailing}{comma}
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\indexii{newline}{suppression}
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Standard output is defined as the file object named \verb@stdout@
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in the built-in module \verb@sys@. If no such object exists,
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or if it is not a writable file, a \verb@RuntimeError@ exception is raised.
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(The original implementation attempts to write to the system's original
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standard output instead, but this is not safe, and should be fixed.)
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\indexii{standard}{output}
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\bimodindex{sys}
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\ttindex{stdout}
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\exindex{RuntimeError}
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\section{The {\tt return} statement}
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\stindex{return}
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\begin{verbatim}
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return_stmt: "return" [condition_list]
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\end{verbatim}
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\verb@return@ may only occur syntactically nested in a function
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definition, not within a nested class definition.
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\indexii{function}{definition}
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\indexii{class}{definition}
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If a condition list is present, it is evaluated, else \verb@None@
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is substituted.
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\verb@return@ leaves the current function call with the condition
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list (or \verb@None@) as return value.
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When \verb@return@ passes control out of a \verb@try@ statement
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with a \verb@finally@ clause, that finally clause is executed
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before really leaving the function.
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\kwindex{finally}
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\section{The {\tt raise} statement}
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\stindex{raise}
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\begin{verbatim}
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raise_stmt: "raise" condition ["," condition ["," condition]]
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\end{verbatim}
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\verb@raise@ evaluates its first condition, which must yield
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a string, class, or instance object. If there is a second condition,
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this is evaluated, else \verb@None@ is substituted. If the first
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condition is a class object, then the second condition must be an
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instance of that class or one of its derivatives. If the first
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condition is an instance object, the second condition must be
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\verb@None@.
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\index{exception}
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\indexii{raising}{exception}
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If the first object is a class or string, it then raises the exception
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identified by the first object, with the second one (or \verb@None@)
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as its parameter. If the first object is an instance, it raises the
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exception identified by the class of the object, with the instance as
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its parameter (and there should be no second object, or the second
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object should be \verb@None@).
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If a third object is present, and it it not \verb@None@, it should be
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a traceback object (see section \ref{traceback}), and it is
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substituted instead of the current location as the place where the
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exception occurred. This is useful to re-raise an exception
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transparently in an except clause.
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\obindex{traceback}
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\section{The {\tt break} statement}
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\stindex{break}
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\begin{verbatim}
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break_stmt: "break"
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\end{verbatim}
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\verb@break@ may only occur syntactically nested in a \verb@for@
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or \verb@while@ loop, but not nested in a function or class definition
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within that loop.
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\stindex{for}
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\stindex{while}
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\indexii{loop}{statement}
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It terminates the nearest enclosing loop, skipping the optional
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\verb@else@ clause if the loop has one.
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\kwindex{else}
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If a \verb@for@ loop is terminated by \verb@break@, the loop control
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target keeps its current value.
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\indexii{loop control}{target}
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When \verb@break@ passes control out of a \verb@try@ statement
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with a \verb@finally@ clause, that finally clause is executed
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before really leaving the loop.
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\kwindex{finally}
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\section{The {\tt continue} statement}
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\stindex{continue}
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\begin{verbatim}
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continue_stmt: "continue"
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\end{verbatim}
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\verb@continue@ may only occur syntactically nested in a \verb@for@ or
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\verb@while@ loop, but not nested in a function or class definition or
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\verb@try@ statement within that loop.\footnote{Except that it may
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currently occur within an {\tt except} clause.}
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\stindex{for}
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\stindex{while}
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\indexii{loop}{statement}
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\kwindex{finally}
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It continues with the next cycle of the nearest enclosing loop.
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\section{The {\tt import} statement} \label{import}
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\stindex{import}
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\begin{verbatim}
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import_stmt: "import" identifier ("," identifier)*
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| "from" identifier "import" identifier ("," identifier)*
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| "from" identifier "import" "*"
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\end{verbatim}
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Import statements are executed in two steps: (1) find a module, and
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initialize it if necessary; (2) define a name or names in the local
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name space (of the scope where the \verb@import@ statement occurs).
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The first form (without \verb@from@) repeats these steps for each
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identifier in the list, the \verb@from@ form performs them once, with
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the first identifier specifying the module name.
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\indexii{importing}{module}
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\indexii{name}{binding}
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\kwindex{from}
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The system maintains a table of modules that have been initialized,
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indexed by module name. (The current implementation makes this table
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accessible as \verb@sys.modules@.) When a module name is found in
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this table, step (1) is finished. If not, a search for a module
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definition is started. This first looks for a built-in module
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definition, and if no built-in module if the given name is found, it
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searches a user-specified list of directories for a file whose name is
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the module name with extension \verb@".py"@. (The current
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implementation uses the list of strings \verb@sys.path@ as the search
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path; it is initialized from the shell environment variable
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\verb@$PYTHONPATH@, with an installation-dependent default.)
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\ttindex{modules}
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\ttindex{sys.modules}
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\indexii{module}{name}
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\indexii{built-in}{module}
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\indexii{user-defined}{module}
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\bimodindex{sys}
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\ttindex{path}
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\ttindex{sys.path}
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\indexii{filename}{extension}
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If a built-in module is found, its built-in initialization code is
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executed and step (1) is finished. If no matching file is found,
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\verb@ImportError@ is raised. If a file is found, it is parsed,
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yielding an executable code block. If a syntax error occurs,
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\verb@SyntaxError@ is raised. Otherwise, an empty module of the given
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name is created and inserted in the module table, and then the code
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block is executed in the context of this module. Exceptions during
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this execution terminate step (1).
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\indexii{module}{initialization}
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\exindex{SyntaxError}
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\exindex{ImportError}
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\index{code block}
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When step (1) finishes without raising an exception, step (2) can
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begin.
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The first form of \verb@import@ statement binds the module name in the
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local name space to the module object, and then goes on to import the
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next identifier, if any. The \verb@from@ from does not bind the
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module name: it goes through the list of identifiers, looks each one
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of them up in the module found in step (1), and binds the name in the
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local name space to the object thus found. If a name is not found,
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\verb@ImportError@ is raised. If the list of identifiers is replaced
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by a star (\verb@*@), all names defined in the module are bound,
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except those beginning with an underscore(\verb@_@).
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\indexii{name}{binding}
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\exindex{ImportError}
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Names bound by import statements may not occur in \verb@global@
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statements in the same scope.
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\stindex{global}
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The \verb@from@ form with \verb@*@ may only occur in a module scope.
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\kwindex{from}
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\ttindex{from ... import *}
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(The current implementation does not enforce the latter two
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restrictions, but programs should not abuse this freedom, as future
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implementations may enforce them or silently change the meaning of the
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program.)
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\section{The {\tt global} statement} \label{global}
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\stindex{global}
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\begin{verbatim}
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global_stmt: "global" identifier ("," identifier)*
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\end{verbatim}
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The \verb@global@ statement is a declaration which holds for the
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entire current scope. It means that the listed identifiers are to be
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interpreted as globals. While {\em using} global names is automatic
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if they are not defined in the local scope, {\em assigning} to global
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names would be impossible without \verb@global@.
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\indexiii{global}{name}{binding}
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Names listed in a \verb@global@ statement must not be used in the same
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scope before that \verb@global@ statement is executed.
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Names listed in a \verb@global@ statement must not be defined as formal
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parameters or in a \verb@for@ loop control target, \verb@class@
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definition, function definition, or \verb@import@ statement.
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(The current implementation does not enforce the latter two
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restrictions, but programs should not abuse this freedom, as future
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implementations may enforce them or silently change the meaning of the
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program.)
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\section{The {\tt access} statement} \label{access}
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\stindex{access}
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\begin{verbatim}
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access_stmt: "access" ...
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\end{verbatim}
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This statement will be used in the future to control access to
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instance and class variables. Currently its syntax and effects are
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undefined; however the keyword \verb@access@ is a reserved word for
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the parser.
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\section{The {\tt exec} statement} \label{exec}
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\stindex{exec}
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\begin{verbatim}
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exec_stmt: "exec" expression ["in" expression ["," expression]]
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\end{verbatim}
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This statement supports dynamic execution of Python code. The first
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expression should evaluate to either a string, an open file object, or
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a code object. If it is a string, the string is parsed as a suite of
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Python statements which is then executed (unless a syntax error
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occurs). If it is an open file, the file is parsed until EOF and
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executed. If it is a code object, it is simply executed.
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In all cases, if the optional parts are omitted, the code is executed
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in the current scope. If only the first expression after \verb@in@ is
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specified, it should be a dictionary, which will be used for both the
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global and the local variables. If two expressions are given, both
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must be dictionaries and they are used for the global and local
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variables, respectively.
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Hints: dynamic evaluation of expressions is supported by the built-in
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function \verb@eval()@. The built-in functions \verb@globals()@ and
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\verb@locals()@ return the current global and local dictionary,
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respectively, which may be useful to pass around for use by \verb@exec@.
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