387 lines
16 KiB
TeX
387 lines
16 KiB
TeX
\chapter{Compound statements}
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\indexii{compound}{statement}
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Compound statements contain (groups of) other statements; they affect
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or control the execution of those other statements in some way. In
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general, compound statements span multiple lines, although in simple
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incarnations a whole compound statement may be contained in one line.
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The \verb@if@, \verb@while@ and \verb@for@ statements implement
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traditional control flow constructs. \verb@try@ specifies exception
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handlers and/or cleanup code for a group of statements. Function and
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class definitions are also syntactically compound statements.
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Compound statements consist of one or more `clauses'. A clause
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consists of a header and a `suite'. The clause headers of a
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particular compound statement are all at the same indentation level.
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Each clause header begins with a uniquely identifying keyword and ends
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with a colon. A suite is a group of statements controlled by a
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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
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colon, or it can be one or more indented statements on subsequent
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lines. Only the latter form of suite can contain nested compound
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statements; the following is illegal, mostly because it wouldn't be
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clear to which \verb@if@ clause a following \verb@else@ clause would
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belong:
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\index{clause}
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\index{suite}
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\begin{verbatim}
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if test1: if test2: print x
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\end{verbatim}
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Also note that the semicolon binds tighter than the colon in this
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context, so that in the following example, either all or none of the
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\verb@print@ statements are executed:
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\begin{verbatim}
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if x < y < z: print x; print y; print z
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\end{verbatim}
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Summarizing:
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\begin{verbatim}
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compound_stmt: if_stmt | while_stmt | for_stmt
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| try_stmt | funcdef | classdef
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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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\end{verbatim}
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Note that statements always end in a \verb@NEWLINE@ possibly followed
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by a \verb@DEDENT@.
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\index{NEWLINE token}
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\index{DEDENT token}
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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
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(the `dangling \verb@else@' problem is solved in Python by requiring
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nested \verb@if@ statements to be indented).
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\indexii{dangling}{else}
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The formatting of the grammar rules in the following sections places
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each clause on a separate line for clarity.
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\section{The {\tt if} statement}
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\stindex{if}
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The \verb@if@ statement is used for conditional execution:
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\begin{verbatim}
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if_stmt: "if" condition ":" suite
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("elif" condition ":" suite)*
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["else" ":" suite]
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\end{verbatim}
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It selects exactly one of the suites by evaluating the conditions one
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by one until one is found to be true (see section \ref{Booleans} for
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the definition of true and false); then that suite is executed (and no
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other part of the \verb@if@ statement is executed or evaluated). If
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all conditions are false, the suite of the \verb@else@ clause, if
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present, is executed.
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\kwindex{elif}
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\kwindex{else}
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\section{The {\tt while} statement}
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\stindex{while}
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\indexii{loop}{statement}
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The \verb@while@ statement is used for repeated execution as long as a
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condition is true:
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\begin{verbatim}
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while_stmt: "while" condition ":" suite
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["else" ":" suite]
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\end{verbatim}
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This repeatedly tests the condition and, if it is true, executes the
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first suite; if the condition is false (which may be the first time it
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is tested) the suite of the \verb@else@ clause, if present, is
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executed and the loop terminates.
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\kwindex{else}
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A \verb@break@ statement executed in the first suite terminates the
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loop without executing the \verb@else@ clause's suite. A
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\verb@continue@ statement executed in the first suite skips the rest
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of the suite and goes back to testing the condition.
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\stindex{break}
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\stindex{continue}
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\section{The {\tt for} statement}
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\stindex{for}
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\indexii{loop}{statement}
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The \verb@for@ statement is used to iterate over the elements of a
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sequence (string, tuple or list):
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\obindex{sequence}
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\begin{verbatim}
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for_stmt: "for" target_list "in" condition_list ":" suite
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["else" ":" suite]
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\end{verbatim}
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The condition list is evaluated once; it should yield a sequence. The
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suite is then executed once for each item in the sequence, in the
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order of ascending indices. Each item in turn is assigned to the
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target list using the standard rules for assignments, and then the
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suite is executed. When the items are exhausted (which is immediately
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when the sequence is empty), the suite in the \verb@else@ clause, if
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present, is executed, and the loop terminates.
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\kwindex{in}
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\kwindex{else}
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\indexii{target}{list}
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A \verb@break@ statement executed in the first suite terminates the
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loop without executing the \verb@else@ clause's suite. A
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\verb@continue@ statement executed in the first suite skips the rest
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of the suite and continues with the next item, or with the \verb@else@
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clause if there was no next item.
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\stindex{break}
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\stindex{continue}
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The suite may assign to the variable(s) in the target list; this does
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not affect the next item assigned to it.
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The target list is not deleted when the loop is finished, but if the
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sequence is empty, it will not have been assigned to at all by the
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loop.
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Hint: the built-in function \verb@range()@ returns a sequence of
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integers suitable to emulate the effect of Pascal's
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\verb@for i := a to b do@;
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e.g. \verb@range(3)@ returns the list \verb@[0, 1, 2]@.
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\bifuncindex{range}
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\index{Pascal}
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{\bf Warning:} There is a subtlety when the sequence is being modified
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by the loop (this can only occur for mutable sequences, i.e. lists).
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An internal counter is used to keep track of which item is used next,
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and this is incremented on each iteration. When this counter has
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reached the length of the sequence the loop terminates. This means that
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if the suite deletes the current (or a previous) item from the
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sequence, the next item will be skipped (since it gets the index of
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the current item which has already been treated). Likewise, if the
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suite inserts an item in the sequence before the current item, the
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current item will be treated again the next time through the loop.
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This can lead to nasty bugs that can be avoided by making a temporary
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copy using a slice of the whole sequence, e.g.
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\index{loop!over mutable sequence}
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\index{mutable sequence!loop over}
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\begin{verbatim}
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for x in a[:]:
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if x < 0: a.remove(x)
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\end{verbatim}
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\section{The {\tt try} statement} \label{try}
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\stindex{try}
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The \verb@try@ statement specifies exception handlers and/or cleanup
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code for a group of statements:
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\begin{verbatim}
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try_stmt: try_exc_stmt | try_fin_stmt
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try_exc_stmt: "try" ":" suite
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("except" [condition ["," target]] ":" suite)+
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["else" ":" suite]
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try_fin_stmt: "try" ":" suite
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"finally" ":" suite
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\end{verbatim}
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There are two forms of \verb@try@ statement: \verb@try...except@ and
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\verb@try...finally@. These forms cannot be mixed.
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The \verb@try...except@ form specifies one or more exception handlers
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(the \verb@except@ clauses). When no exception occurs in the
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\verb@try@ clause, no exception handler is executed. When an
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exception occurs in the \verb@try@ suite, a search for an exception
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handler is started. This inspects the except clauses in turn until
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one is found that matches the exception. A condition-less except
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clause, if present, must be last; it matches any exception. For an
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except clause with a condition, that condition is evaluated, and the
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clause matches the exception if the resulting object is ``compatible''
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with the exception. An object is compatible with an exception if it
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is either the object that identifies the exception or it is a tuple
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containing an item that is compatible with the exception. Note that
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the object identities must match, i.e. it must be the same object, not
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just an object with the same value.
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\kwindex{except}
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If no except clause matches the exception, the search for an exception
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handler continues in the surrounding code and on the invocation stack.
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If the evaluation of a condition in the header of an except clause
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raises an exception, the original search for a handler is cancelled
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and a search starts for the new exception in the surrounding code and
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on the call stack (it is treated as if the entire \verb@try@ statement
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raised the exception).
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When a matching except clause is found, the exception's parameter is
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assigned to the target specified in that except clause, if present,
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and the except clause's suite is executed. When the end of this suite
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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
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handler, the outer handler will not handle the exception.)
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Before an except clause's suite is executed, details about the
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exception are assigned to three variables in the \verb@sys@ module:
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\verb@sys.exc_type@ receives the object identifying the exception;
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\verb@sys.exc_value@ receives the exception's parameter;
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\verb@sys.exc_traceback@ receives a traceback object (see section
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\ref{traceback}) identifying the point in the program where the
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exception occurred.
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\bimodindex{sys}
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\ttindex{exc_type}
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\ttindex{exc_value}
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\ttindex{exc_traceback}
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\obindex{traceback}
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The optional \verb@else@ clause is executed when no exception occurs
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in the \verb@try@ clause. Exceptions in the \verb@else@ clause are
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not handled by the preceding \verb@except@ clauses.
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\kwindex{else}
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The \verb@try...finally@ form specifies a `cleanup' handler. The
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\verb@try@ clause is executed. When no exception occurs, the
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\verb@finally@ clause is executed. When an exception occurs in the
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\verb@try@ clause, the exception is temporarily saved, the
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\verb@finally@ clause is executed, and then the saved exception is
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re-raised. If the \verb@finally@ clause raises another exception or
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executes a \verb@return@, \verb@break@ or \verb@continue@ statement,
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the saved exception is lost.
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\kwindex{finally}
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When a \verb@return@ or \verb@break@ statement is executed in the
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\verb@try@ suite of a \verb@try...finally@ statement, the
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\verb@finally@ clause is also executed `on the way out'. A
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\verb@continue@ statement is illegal in the \verb@try@ clause. (The
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reason is a problem with the current implementation --- this
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restriction may be lifted in the future).
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\stindex{return}
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\stindex{break}
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\stindex{continue}
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\section{Function definitions} \label{function}
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\indexii{function}{definition}
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A function definition defines a user-defined function object (see
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section \ref{types}):
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\obindex{user-defined function}
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\obindex{function}
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\begin{verbatim}
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funcdef: "def" funcname "(" [parameter_list] ")" ":" suite
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parameter_list: (defparameter ",")* ("*" identifier | defparameter [","])
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defparameter: parameter ["=" condition]
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sublist: parameter ("," parameter)* [","]
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parameter: identifier | "(" sublist ")"
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funcname: identifier
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\end{verbatim}
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A function definition is an executable statement. Its execution binds
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the function name in the current local name space to a function object
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(a wrapper around the executable code for the function). This
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function object contains a reference to the current global name space
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as the global name space to be used when the function is called.
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\indexii{function}{name}
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\indexii{name}{binding}
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The function definition does not execute the function body; this gets
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executed only when the function is called.
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When one or more top-level parameters have the form {\em parameter =
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condition}, the function is said to have ``default parameter values''.
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Default parameter values are evaluated when the function definition is
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executed. For a parameter with a default value, the correponding
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argument may be omitted from a call, in which case the parameter's
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default value is substituted. If a parameter has a default value, all
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following parameters must also have a default value --- this is a
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syntactic restriction that is not expressed by the grammar.%
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\footnote{Currently this is not checked; instead,
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{\tt def f(a=1,b)} is interpreted as {\tt def f(a=1,b=None)}.}
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\indexiii{default}{parameter}{value}
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Function call semantics are described in section \ref{calls}. When a
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user-defined function is called, first missing arguments for which a
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default value exists are supplied; then the arguments (a.k.a. actual
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parameters) are bound to the (formal) parameters, as follows:
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\indexii{function}{call}
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\indexiii{user-defined}{function}{call}
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\index{parameter}
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\index{argument}
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\indexii{parameter}{formal}
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\indexii{parameter}{actual}
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\begin{itemize}
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\item
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If there are no formal parameters, there must be no arguments.
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\item
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If the formal parameter list does not end in a star followed by an
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identifier, there must be exactly as many arguments as there are
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parameters in the formal parameter list (at the top level); the
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arguments are assigned to the formal parameters one by one. Note that
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the presence or absence of a trailing comma at the top level in either
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the formal or the actual parameter list makes no difference. The
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assignment to a formal parameter is performed as if the parameter
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occurs on the left hand side of an assignment statement whose right
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hand side's value is that of the argument.
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\item
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If the formal parameter list ends in a star followed by an identifier,
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preceded by zero or more comma-followed parameters, there must be at
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least as many arguments as there are parameters preceding the star.
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Call this number {\em N}. The first {\em N} arguments are assigned to
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the corresponding formal parameters in the way descibed above. A
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tuple containing the remaining arguments, if any, is then assigned to
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the identifier following the star. This variable will always be a
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tuple: if there are no extra arguments, its value is \verb@()@, if
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there is just one extra argument, it is a singleton tuple.
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\indexii{variable length}{parameter list}
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\end{itemize}
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Note that the `variable length parameter list' feature only works at
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the top level of the parameter list; individual parameters use a model
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corresponding more closely to that of ordinary assignment. While the
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latter model is generally preferable, because of the greater type
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safety it offers (wrong-sized tuples aren't silently mistreated),
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variable length parameter lists are a sufficiently accepted practice
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in most programming languages that a compromise has been worked out.
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(And anyway, assignment has no equivalent for empty argument lists.)
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It is also possible to create anonymous functions (functions not bound
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to a name), for immediate use in expressions. This uses lambda forms,
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described in section \ref{lambda}.
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\indexii{lambda}{form}
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\section{Class definitions} \label{class}
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\indexii{class}{definition}
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A class definition defines a class object (see section \ref{types}):
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\obindex{class}
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\begin{verbatim}
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classdef: "class" classname [inheritance] ":" suite
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inheritance: "(" [condition_list] ")"
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classname: identifier
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\end{verbatim}
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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
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should evaluate to a class object. The class's suite is then executed
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in a new execution frame (see section \ref{execframes}), using a newly
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created local name space and the original global name space.
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(Usually, the suite contains only function definitions.) When the
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class's suite finishes execution, its execution frame is discarded but
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its local name space is saved. A class object is then created using
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the inheritance list for the base classes and the saved local name
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space for the attribute dictionary. The class name is bound to this
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class object in the original local name space.
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\index{inheritance}
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\indexii{class}{name}
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\indexii{name}{binding}
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\indexii{execution}{frame}
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