mirror of https://github.com/python/cpython
676 lines
24 KiB
TeX
676 lines
24 KiB
TeX
\documentclass{howto}
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% $Id$
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% TODO:
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% Go through and get the contributor's name for all the various changes
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\title{What's New in Python 2.3}
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\release{0.02}
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\author{A.M. Kuchling}
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\authoraddress{\email{akuchlin@mems-exchange.org}}
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\begin{document}
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\maketitle
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\tableofcontents
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% Timeout sockets:
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% Executive summary: after sock.settimeout(T), all methods of sock will
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% block for at most T floating seconds and fail if they can't complete
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% within that time. sock.settimeout(None) restores full blocking mode.
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%
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% Optik (or whatever it gets called)
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%
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% getopt.gnu_getopt
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%
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% Docstrings now optional (with --without-doc-strings)
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%
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% New dependency argument to distutils.Extension
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%
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%\section{Introduction \label{intro}}
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{\large This article is a draft, and is currently up to date for some
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random version of the CVS tree around May 26 2002. Please send any
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additions, comments or errata to the author.}
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This article explains the new features in Python 2.3. The tentative
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release date of Python 2.3 is currently scheduled for August 30 2002.
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This article doesn't attempt to provide a complete specification of
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the new features, but instead provides a convenient overview. For
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full details, you should refer to the documentation for Python 2.3,
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such as the
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\citetitle[http://www.python.org/doc/2.3/lib/lib.html]{Python Library
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Reference} and the
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\citetitle[http://www.python.org/doc/2.3/ref/ref.html]{Python
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Reference Manual}. If you want to understand the complete
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implementation and design rationale for a change, refer to the PEP for
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a particular new feature.
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%======================================================================
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\section{PEP 255: Simple Generators\label{section-generators}}
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In Python 2.2, generators were added as an optional feature, to be
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enabled by a \code{from __future__ import generators} directive. In
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2.3 generators no longer need to be specially enabled, and are now
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always present; this means that \keyword{yield} is now always a
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keyword. The rest of this section is a copy of the description of
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generators from the ``What's New in Python 2.2'' document; if you read
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it when 2.2 came out, you can skip the rest of this section.
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You're doubtless familiar with how function calls work in Python or C.
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When you call a function, it gets a private namespace where its local
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variables are created. When the function reaches a \keyword{return}
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statement, the local variables are destroyed and the resulting value
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is returned to the caller. A later call to the same function will get
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a fresh new set of local variables. But, what if the local variables
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weren't thrown away on exiting a function? What if you could later
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resume the function where it left off? This is what generators
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provide; they can be thought of as resumable functions.
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Here's the simplest example of a generator function:
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\begin{verbatim}
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def generate_ints(N):
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for i in range(N):
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yield i
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\end{verbatim}
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A new keyword, \keyword{yield}, was introduced for generators. Any
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function containing a \keyword{yield} statement is a generator
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function; this is detected by Python's bytecode compiler which
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compiles the function specially as a result.
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When you call a generator function, it doesn't return a single value;
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instead it returns a generator object that supports the iterator
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protocol. On executing the \keyword{yield} statement, the generator
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outputs the value of \code{i}, similar to a \keyword{return}
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statement. The big difference between \keyword{yield} and a
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\keyword{return} statement is that on reaching a \keyword{yield} the
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generator's state of execution is suspended and local variables are
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preserved. On the next call to the generator's \code{.next()} method,
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the function will resume executing immediately after the
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\keyword{yield} statement. (For complicated reasons, the
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\keyword{yield} statement isn't allowed inside the \keyword{try} block
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of a \code{try...finally} statement; read \pep{255} for a full
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explanation of the interaction between \keyword{yield} and
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exceptions.)
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Here's a sample usage of the \function{generate_ints} generator:
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\begin{verbatim}
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>>> gen = generate_ints(3)
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>>> gen
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<generator object at 0x8117f90>
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>>> gen.next()
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0
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>>> gen.next()
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1
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>>> gen.next()
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2
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>>> gen.next()
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Traceback (most recent call last):
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File "stdin", line 1, in ?
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File "stdin", line 2, in generate_ints
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StopIteration
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\end{verbatim}
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You could equally write \code{for i in generate_ints(5)}, or
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\code{a,b,c = generate_ints(3)}.
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Inside a generator function, the \keyword{return} statement can only
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be used without a value, and signals the end of the procession of
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values; afterwards the generator cannot return any further values.
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\keyword{return} with a value, such as \code{return 5}, is a syntax
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error inside a generator function. The end of the generator's results
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can also be indicated by raising \exception{StopIteration} manually,
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or by just letting the flow of execution fall off the bottom of the
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function.
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You could achieve the effect of generators manually by writing your
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own class and storing all the local variables of the generator as
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instance variables. For example, returning a list of integers could
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be done by setting \code{self.count} to 0, and having the
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\method{next()} method increment \code{self.count} and return it.
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However, for a moderately complicated generator, writing a
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corresponding class would be much messier.
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\file{Lib/test/test_generators.py} contains a number of more
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interesting examples. The simplest one implements an in-order
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traversal of a tree using generators recursively.
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\begin{verbatim}
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# A recursive generator that generates Tree leaves in in-order.
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def inorder(t):
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if t:
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for x in inorder(t.left):
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yield x
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yield t.label
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for x in inorder(t.right):
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yield x
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\end{verbatim}
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Two other examples in \file{Lib/test/test_generators.py} produce
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solutions for the N-Queens problem (placing $N$ queens on an $NxN$
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chess board so that no queen threatens another) and the Knight's Tour
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(a route that takes a knight to every square of an $NxN$ chessboard
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without visiting any square twice).
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The idea of generators comes from other programming languages,
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especially Icon (\url{http://www.cs.arizona.edu/icon/}), where the
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idea of generators is central. In Icon, every
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expression and function call behaves like a generator. One example
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from ``An Overview of the Icon Programming Language'' at
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\url{http://www.cs.arizona.edu/icon/docs/ipd266.htm} gives an idea of
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what this looks like:
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\begin{verbatim}
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sentence := "Store it in the neighboring harbor"
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if (i := find("or", sentence)) > 5 then write(i)
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\end{verbatim}
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In Icon the \function{find()} function returns the indexes at which the
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substring ``or'' is found: 3, 23, 33. In the \keyword{if} statement,
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\code{i} is first assigned a value of 3, but 3 is less than 5, so the
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comparison fails, and Icon retries it with the second value of 23. 23
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is greater than 5, so the comparison now succeeds, and the code prints
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the value 23 to the screen.
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Python doesn't go nearly as far as Icon in adopting generators as a
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central concept. Generators are considered a new part of the core
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Python language, but learning or using them isn't compulsory; if they
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don't solve any problems that you have, feel free to ignore them.
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One novel feature of Python's interface as compared to
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Icon's is that a generator's state is represented as a concrete object
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(the iterator) that can be passed around to other functions or stored
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in a data structure.
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\begin{seealso}
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\seepep{255}{Simple Generators}{Written by Neil Schemenauer, Tim
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Peters, Magnus Lie Hetland. Implemented mostly by Neil Schemenauer
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and Tim Peters, with other fixes from the Python Labs crew.}
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\end{seealso}
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%======================================================================
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\section{PEP 278: Universal Newline Support}
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The three major operating systems used today are Microsoft Windows,
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Apple's Macintosh OS, and the various \UNIX\ derivatives. A minor
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irritation is that these three platforms all use different characters
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to mark the ends of lines in text files. \UNIX\ uses character 10,
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the ASCII linefeed, while MacOS uses character 13, the ASCII carriage
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return, and Windows uses a two-character sequence of a carriage return
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plus a newline.
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Python's file objects can now support end of line conventions other
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than the one followed by the platform on which Python is running.
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Opening a file with the mode \samp{U} or \samp{rU} will open a file
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for reading in universal newline mode. All three line ending
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conventions will be translated to a \samp{\e n} in the strings
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returned by the various file methods such as \method{read()} and
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\method{readline()}.
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Universal newline support is also used when importing modules and when
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executing a file with the \function{execfile()} function. This means
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that Python modules can be shared between all three operating systems
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without needing to convert the line-endings.
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This feature can be disabled at compile-time by specifying
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\longprogramopt{without-universal-newlines} when running Python's
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\file{configure} script.
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\begin{seealso}
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\seepep{278}{Universal Newline Support}{Written
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and implemented by Jack Jansen.}
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\end{seealso}
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%======================================================================
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\section{PEP 279: The \function{enumerate()} Built-in Function}
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A new built-in function, \function{enumerate()}, will make
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certain loops a bit clearer. \code{enumerate(thing)}, where
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\var{thing} is either an iterator or a sequence, returns a iterator
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that will return \code{(0, \var{thing[0]})}, \code{(1,
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\var{thing[1]})}, \code{(2, \var{thing[2]})}, and so forth. Fairly
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often you'll see code to change every element of a list that looks
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like this:
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\begin{verbatim}
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for i in range(len(L)):
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item = L[i]
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# ... compute some result based on item ...
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L[i] = result
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\end{verbatim}
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This can be rewritten using \function{enumerate()} as:
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\begin{verbatim}
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for i, item in enumerate(L):
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# ... compute some result based on item ...
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L[i] = result
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\end{verbatim}
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\begin{seealso}
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\seepep{279}{The enumerate() built-in function}{Written
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by Raymond D. Hettinger.}
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\end{seealso}
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%======================================================================
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\section{PEP 285: The \class{bool} Type\label{section-bool}}
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A Boolean type was added to Python 2.3. Two new constants were added
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to the \module{__builtin__} module, \constant{True} and
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\constant{False}. The type object for this new type is named
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\class{bool}; the constructor for it takes any Python value and
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converts it to \constant{True} or \constant{False}.
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\begin{verbatim}
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>>> bool(1)
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True
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>>> bool(0)
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False
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>>> bool([])
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False
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>>> bool( (1,) )
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True
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\end{verbatim}
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Most of the standard library modules and built-in functions have been
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changed to return Booleans.
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\begin{verbatim}
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>>> obj = []
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>>> hasattr(obj, 'append')
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True
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>>> isinstance(obj, list)
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True
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>>> isinstance(obj, tuple)
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False
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\end{verbatim}
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Python's Booleans were added with the primary goal of making code
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clearer. For example, if you're reading a function and encounter the
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statement \code{return 1}, you might wonder whether the \samp{1}
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represents a truth value, or whether it's an index, or whether it's a
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coefficient that multiplies some other quantity. If the statement is
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\code{return True}, however, the meaning of the return value is quite
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clearly a truth value.
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Python's Booleans were not added for the sake of strict type-checking.
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A very strict language such as Pascal would also prevent you
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performing arithmetic with Booleans, and would require that the
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expression in an \keyword{if} statement always evaluate to a Boolean.
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Python is not this strict, and it never will be. (\pep{285}
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explicitly says so.) So you can still use any expression in an
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\keyword{if}, even ones that evaluate to a list or tuple or some
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random object, and the Boolean type is a subclass of the
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\class{int} class, so arithmetic using a Boolean still works.
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\begin{verbatim}
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>>> True + 1
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2
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>>> False + 1
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1
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>>> False * 75
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0
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>>> True * 75
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75
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\end{verbatim}
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To sum up \constant{True} and \constant{False} in a sentence: they're
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alternative ways to spell the integer values 1 and 0, with the single
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difference that \function{str()} and \function{repr()} return the
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strings \samp{True} and \samp{False} instead of \samp{1} and \samp{0}.
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\begin{seealso}
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\seepep{285}{Adding a bool type}{Written and implemented by GvR.}
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\end{seealso}
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\section{Extended Slices\label{extended-slices}}
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Ever since Python 1.4 the slice syntax has supported a third
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``stride'' argument, but the builtin sequence types have not supported
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this feature (it was initially included at the behest of the
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developers of the Numerical Python package). This changes with Python
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2.3.
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% XXX examples, etc.
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%======================================================================
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%\section{Other Language Changes}
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%Here are the changes that Python 2.3 makes to the core language.
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%\begin{itemize}
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%\item The \keyword{yield} statement is now always a keyword, as
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%described in section~\ref{section-generators}.
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%\item Two new constants, \constant{True} and \constant{False} were
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%added along with the built-in \class{bool} type, as described in
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%section~\ref{section-bool}.
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%\item
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%\end{itemize}
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%\begin{PendingDeprecationWarning}
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A new warning PendingDeprecationWarning was added to provide
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direction on features which are in the process of being deprecated.
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The warning will not be printed by default. To see the pending
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deprecations, use -Walways::PendingDeprecationWarning:: on the command line
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or warnings.filterwarnings().
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%\end{PendingDeprecationWarning}
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%======================================================================
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\section{Specialized Object Allocator (pymalloc)\label{section-pymalloc}}
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An experimental feature added to Python 2.1 was a specialized object
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allocator called pymalloc, written by Vladimir Marangozov. Pymalloc
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was intended to be faster than the system \function{malloc()} and have
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less memory overhead for typical allocation patterns of Python
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programs. The allocator uses C's \function{malloc()} function to get
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large pools of memory, and then fulfills smaller memory requests from
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these pools.
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In 2.1 and 2.2, pymalloc was an experimental feature and wasn't
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enabled by default; you had to explicitly turn it on by providing the
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\longprogramopt{with-pymalloc} option to the \program{configure}
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script. In 2.3, pymalloc has had further enhancements and is now
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enabled by default; you'll have to supply
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\longprogramopt{without-pymalloc} to disable it.
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This change is transparent to code written in Python; however,
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pymalloc may expose bugs in C extensions. Authors of C extension
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modules should test their code with the object allocator enabled,
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because some incorrect code may cause core dumps at runtime. There
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are a bunch of memory allocation functions in Python's C API that have
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previously been just aliases for the C library's \function{malloc()}
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and \function{free()}, meaning that if you accidentally called
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mismatched functions, the error wouldn't be noticeable. When the
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object allocator is enabled, these functions aren't aliases of
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\function{malloc()} and \function{free()} any more, and calling the
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wrong function to free memory may get you a core dump. For example,
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if memory was allocated using \function{PyObject_Malloc()}, it has to
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be freed using \function{PyObject_Free()}, not \function{free()}. A
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few modules included with Python fell afoul of this and had to be
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fixed; doubtless there are more third-party modules that will have the
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same problem.
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As part of this change, the confusing multiple interfaces for
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allocating memory have been consolidated down into two API families.
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Memory allocated with one family must not be manipulated with
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functions from the other family.
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There is another family of functions specifically for allocating
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Python \emph{objects} (as opposed to memory).
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\begin{itemize}
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\item To allocate and free an undistinguished chunk of memory use
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the ``raw memory'' family: \cfunction{PyMem_Malloc()},
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\cfunction{PyMem_Realloc()}, and \cfunction{PyMem_Free()}.
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\item The ``object memory'' family is the interface to the pymalloc
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facility described above and is biased towards a large number of
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``small'' allocations: \cfunction{PyObject_Malloc},
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\cfunction{PyObject_Realloc}, and \cfunction{PyObject_Free}.
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\item To allocate and free Python objects, use the ``object'' family
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\cfunction{PyObject_New()}, \cfunction{PyObject_NewVar()}, and
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\cfunction{PyObject_Del()}.
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\end{itemize}
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Thanks to lots of work by Tim Peters, pymalloc in 2.3 also provides
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debugging features to catch memory overwrites and doubled frees in
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both extension modules and in the interpreter itself. To enable this
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support, turn on the Python interpreter's debugging code by running
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\program{configure} with \longprogramopt{with-pydebug}.
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To aid extension writers, a header file \file{Misc/pymemcompat.h} is
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distributed with the source to Python 2.3 that allows Python
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extensions to use the 2.3 interfaces to memory allocation and compile
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against any version of Python since 1.5.2. (The idea is that you take
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the file from Python's source distribution and bundle it with the
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source of your extension).
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\begin{seealso}
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\seeurl{http://cvs.sourceforge.net/cgi-bin/viewcvs.cgi/python/python/dist/src/Objects/obmalloc.c}
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{For the full details of the pymalloc implementation, see
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the comments at the top of the file \file{Objects/obmalloc.c} in the
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Python source code. The above link points to the file within the
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SourceForge CVS browser.}
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\end{seealso}
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%======================================================================
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\section{New and Improved Modules}
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As usual, Python's standard modules had a number of enhancements and
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bug fixes. Here's a partial list; consult the \file{Misc/NEWS} file
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in the source tree, or the CVS logs, for a more complete list.
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\begin{itemize}
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\item One minor but far-reaching change is that the names of extension
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types defined by the modules included with Python now contain the
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module and a \samp{.} in front of the type name. For example, in
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Python 2.2, if you created a socket and printed its
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\member{__class__}, you'd get this output:
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\begin{verbatim}
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>>> s = socket.socket()
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>>> s.__class__
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<type 'socket'>
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\end{verbatim}
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In 2.3, you get this:
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\begin{verbatim}
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>>> s.__class__
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<type '_socket.socket'>
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\end{verbatim}
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\item The \method{strip()}, \method{lstrip()}, and \method{rstrip()}
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|
string methods now have an optional argument for specifying the
|
|
characters to strip. The default is still to remove all whitespace
|
|
characters:
|
|
|
|
\begin{verbatim}
|
|
>>> ' abc '.strip()
|
|
'abc'
|
|
>>> '><><abc<><><>'.strip('<>')
|
|
'abc'
|
|
>>> '><><abc<><><>\n'.strip('<>')
|
|
'abc<><><>\n'
|
|
>>> u'\u4000\u4001abc\u4000'.strip(u'\u4000')
|
|
u'\u4001abc'
|
|
>>>
|
|
\end{verbatim}
|
|
|
|
\item The \method{startswith()} and \method{endswith()}
|
|
string methods now have accept negative numbers for
|
|
start and end parameters.
|
|
|
|
\item Another new string method is \method{zfill()}, originally a
|
|
function in the \module{string} module. \method{zfill()} pads a
|
|
numeric string with zeros on the left until it's the specified width.
|
|
Note that the \code{\%} operator is still more flexible and powerful
|
|
than \method{zfill()}.
|
|
|
|
\begin{verbatim}
|
|
>>> '45'.zfill(4)
|
|
'0045'
|
|
>>> '12345'.zfill(4)
|
|
'12345'
|
|
>>> 'goofy'.zfill(6)
|
|
'0goofy'
|
|
\end{verbatim}
|
|
|
|
\item Dictionaries have a new method, \method{pop(\var{key})}, that
|
|
returns the value corresponding to \var{key} and removes that
|
|
key/value pair from the dictionary. \method{pop()} will raise a
|
|
\exception{KeyError} if the requsted key isn't present in the
|
|
dictionary:
|
|
|
|
\begin{verbatim}
|
|
>>> d = {1:2}
|
|
>>> d
|
|
{1: 2}
|
|
>>> d.pop(4)
|
|
Traceback (most recent call last):
|
|
File ``stdin'', line 1, in ?
|
|
KeyError: 4
|
|
>>> d.pop(1)
|
|
2
|
|
>>> d.pop(1)
|
|
Traceback (most recent call last):
|
|
File ``stdin'', line 1, in ?
|
|
KeyError: pop(): dictionary is empty
|
|
>>> d
|
|
{}
|
|
>>>
|
|
\end{verbatim}
|
|
|
|
(Contributed by Raymond Hettinger.)
|
|
|
|
\item Two new functions in the \module{math} module,
|
|
\function{degrees(\var{rads})} and \function{radians(\var{degs})},
|
|
convert between radians and degrees. Other functions in the
|
|
\module{math} module such as
|
|
\function{math.sin()} and \function{math.cos()} have always required
|
|
input values measured in radians. (Contributed by Raymond Hettinger.)
|
|
|
|
\item Three new functions, \function{getpgid()}, \function{killpg()},
|
|
and \function{mknod()}, were added to the \module{posix} module that
|
|
underlies the \module{os} module.
|
|
|
|
\item Two new binary packagers were added to the Distutils.
|
|
\code{bdist_pkgtool} builds \file{.pkg} files to use with Solaris
|
|
\program{pkgtool}, and \code{bdist_sdux} builds \program{swinstall}
|
|
packages for use on HP-UX. (Contributed by Mark Alexander.)
|
|
|
|
\item The \module{array} module now supports arrays of Unicode
|
|
characters using the \samp{u} format character. Arrays also
|
|
now support using the \code{+=} assignment operator to add another array's
|
|
contents, and the \code{*=} assignment operator to repeat an array.
|
|
(Contributed by Jason Orendorff.)
|
|
|
|
\item The \module{grp} module now returns enhanced tuples:
|
|
|
|
\begin{verbatim}
|
|
>>> import grp
|
|
>>> g = grp.getgrnam('amk')
|
|
>>> g.gr_name, g.gr_gid
|
|
('amk', 500)
|
|
\end{verbatim}
|
|
|
|
\item The \module{readline} module also gained a number of new
|
|
functions: \function{get_history_item()},
|
|
\function{get_current_history_length()}, and \function{redisplay()}.
|
|
|
|
\item Support for more advanced POSIX signal handling was added
|
|
to the \module{signal} module by adding the \function{sigpending},
|
|
\function{sigprocmask} and \function{sigsuspend} functions, where supported
|
|
by the platform. These functions make it possible to avoid some previously
|
|
unavoidable race conditions.
|
|
|
|
\end{itemize}
|
|
|
|
|
|
% ======================================================================
|
|
\section{Build and C API Changes}
|
|
|
|
Changes to Python's build process, and to the C API, include:
|
|
|
|
\begin{itemize}
|
|
|
|
\item Python can now optionally be built as a shared library
|
|
(\file{libpython2.3.so}) by supplying \longprogramopt{enable-shared}
|
|
when running Python's \file{configure} script. (Contributed by Ondrej
|
|
Palkovsky.)
|
|
|
|
\item The \cfunction{PyArg_NoArgs()} macro is now deprecated, and code
|
|
that
|
|
uses it should be changed to use \code{PyArg_ParseTuple(args, "")}
|
|
instead.
|
|
|
|
\item A new function, \cfunction{PyObject_DelItemString(\var{mapping},
|
|
char *\var{key})} was added
|
|
as shorthand for
|
|
\code{PyObject_DelItem(\var{mapping}, PyString_New(\var{key})}.
|
|
|
|
\item The source code for the Expat XML parser is now included with
|
|
the Python source, so the \module{pyexpat} module is no longer
|
|
dependent on having a system library containing Expat.
|
|
|
|
\item File objects now manage their internal string buffer
|
|
differently by increasing it exponentially when needed.
|
|
This results in the benchmark tests in \file{Lib/test/test_bufio.py}
|
|
speeding up from 57 seconds to 1.7 seconds, according to one
|
|
measurement.
|
|
|
|
\item It's now possible to define class and static methods for a C
|
|
extension type by setting either the \constant{METH_CLASS} or
|
|
\constant{METH_STATIC} flags in a method's \ctype{PyMethodDef}
|
|
structure.
|
|
|
|
\end{itemize}
|
|
|
|
\subsection{Port-Specific Changes}
|
|
|
|
Support for a port to IBM's OS/2 using the EMX runtime environment was
|
|
merged into the main Python source tree. EMX is a POSIX emulation
|
|
layer over the OS/2 system APIs. The Python port for EMX tries to
|
|
support all the POSIX-like capability exposed by the EMX runtime, and
|
|
mostly succeeds; \function{fork()} and \function{fcntl()} are
|
|
restricted by the limitations of the underlying emulation layer. The
|
|
standard OS/2 port, which uses IBM's Visual Age compiler, also gained
|
|
support for case-sensitive import semantics as part of the integration
|
|
of the EMX port into CVS. (Contributed by Andrew MacIntyre.)
|
|
|
|
On MacOS, most toolbox modules have been weaklinked to improve
|
|
backward compatibility. This means that modules will no longer fail
|
|
to load if a single routine is missing on the curent OS version.
|
|
Instead calling the missing routine will raise an exception.
|
|
(Contributed by Jack Jansen.)
|
|
|
|
The RPM spec files, found in the \file{Misc/RPM/} directory in the
|
|
Python source distribution, were updated for 2.3. (Contributed by
|
|
Sean Reifschneider.)
|
|
|
|
|
|
%======================================================================
|
|
\section{Other Changes and Fixes}
|
|
|
|
Finally, there are various miscellaneous fixes:
|
|
|
|
\begin{itemize}
|
|
|
|
\item The tools used to build the documentation now work under Cygwin
|
|
as well as \UNIX.
|
|
|
|
\end{itemize}
|
|
|
|
|
|
%======================================================================
|
|
\section{Acknowledgements \label{acks}}
|
|
|
|
The author would like to thank the following people for offering
|
|
suggestions, corrections and assistance with various drafts of this
|
|
article: Michael Chermside, Scott David Daniels, Fred~L. Drake, Jr.,
|
|
Detlef Lannert, Andrew MacIntyre.
|
|
|
|
\end{document}
|