mirror of https://github.com/python/cpython
772 lines
35 KiB
TeX
772 lines
35 KiB
TeX
\documentclass{howto}
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\title{What's New in Python 2.0}
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\release{0.04}
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\author{A.M. Kuchling and Moshe Zadka}
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\authoraddress{\email{amk1@bigfoot.com}, \email{moshez@math.huji.ac.il} }
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\begin{document}
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\maketitle\tableofcontents
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\section{Introduction}
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{\large This is a draft document; please report inaccuracies and
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omissions to the authors. This document should not be treated as
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definitive; features described here might be removed or changed during
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the beta cycle before the final release of Python 2.0.
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}
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A new release of Python, version 2.0, will be released some time this
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summer. Alpha versions are already available from
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\url{http://www.python.org/2.0/}. This article covers the exciting
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new features in 2.0, highlights some other useful changes, and points
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out a few incompatible changes that may require rewriting code.
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Python's development never completely stops between releases, and a
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steady flow of bug fixes and improvements are always being submitted.
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A host of minor fixes, a few optimizations, additional docstrings, and
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better error messages went into 2.0; to list them all would be
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impossible, but they're certainly significant. Consult the
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publicly-available CVS logs if you want to see the full list.
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% ======================================================================
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\section{Unicode}
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The largest new feature in Python 2.0 is a new fundamental data type:
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Unicode strings. Unicode uses 16-bit numbers to represent characters
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instead of the 8-bit number used by ASCII, meaning that 65,536
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distinct characters can be supported.
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The final interface for Unicode support was arrived at through
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countless often-stormy discussions on the python-dev mailing list, and
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mostly implemented by Marc-Andr\'e Lemburg, based on a Unicode string
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type implementation by Fredrik Lundh. A detailed explanation of the
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interface is in the file \file{Misc/unicode.txt} in the Python source
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distribution; it's also available on the Web at
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\url{http://starship.python.net/crew/lemburg/unicode-proposal.txt}.
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This article will simply cover the most significant points from the
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full interface.
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In Python source code, Unicode strings are written as
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\code{u"string"}. Arbitrary Unicode characters can be written using a
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new escape sequence, \code{\e u\var{HHHH}}, where \var{HHHH} is a
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4-digit hexadecimal number from 0000 to FFFF. The existing
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\code{\e x\var{HHHH}} escape sequence can also be used, and octal
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escapes can be used for characters up to U+01FF, which is represented
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by \code{\e 777}.
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Unicode strings, just like regular strings, are an immutable sequence
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type. They can be indexed and sliced, but not modified in place.
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Unicode strings have an \method{encode( \optional{encoding} )} method
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that returns an 8-bit string in the desired encoding. Encodings are
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named by strings, such as \code{'ascii'}, \code{'utf-8'},
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\code{'iso-8859-1'}, or whatever. A codec API is defined for
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implementing and registering new encodings that are then available
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throughout a Python program. If an encoding isn't specified, the
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default encoding is usually 7-bit ASCII, though it can be changed for
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your Python installation by calling the
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\function{sys.setdefaultencoding(\var{encoding})} function in a
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customised version of \file{site.py}.
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Combining 8-bit and Unicode strings always coerces to Unicode, using
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the default ASCII encoding; the result of \code{'a' + u'bc'} is
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\code{u'abc'}.
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New built-in functions have been added, and existing built-ins
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modified to support Unicode:
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\begin{itemize}
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\item \code{unichr(\var{ch})} returns a Unicode string 1 character
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long, containing the character \var{ch}.
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\item \code{ord(\var{u})}, where \var{u} is a 1-character regular or Unicode string, returns the number of the character as an integer.
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\item \code{unicode(\var{string}, \optional{\var{encoding},}
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\optional{\var{errors}} ) } creates a Unicode string from an 8-bit
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string. \code{encoding} is a string naming the encoding to use.
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The \code{errors} parameter specifies the treatment of characters that
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are invalid for the current encoding; passing \code{'strict'} as the
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value causes an exception to be raised on any encoding error, while
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\code{'ignore'} causes errors to be silently ignored and
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\code{'replace'} uses U+FFFD, the official replacement character, in
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case of any problems.
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\end{itemize}
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A new module, \module{unicodedata}, provides an interface to Unicode
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character properties. For example, \code{unicodedata.category(u'A')}
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returns the 2-character string 'Lu', the 'L' denoting it's a letter,
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and 'u' meaning that it's uppercase.
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\code{u.bidirectional(u'\e x0660')} returns 'AN', meaning that U+0660 is
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an Arabic number.
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The \module{codecs} module contains functions to look up existing encodings
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and register new ones. Unless you want to implement a
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new encoding, you'll most often use the
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\function{codecs.lookup(\var{encoding})} function, which returns a
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4-element tuple: \code{(\var{encode_func},
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\var{decode_func}, \var{stream_reader}, \var{stream_writer})}.
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\begin{itemize}
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\item \var{encode_func} is a function that takes a Unicode string, and
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returns a 2-tuple \code{(\var{string}, \var{length})}. \var{string}
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is an 8-bit string containing a portion (perhaps all) of the Unicode
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string converted into the given encoding, and \var{length} tells you how much of the Unicode string was converted.
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\item \var{decode_func} is the mirror of \var{encode_func},
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taking a Unicode string and
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returns a 2-tuple \code{(\var{ustring}, \var{length})} containing a Unicode string
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and \var{length} telling you how much of the string was consumed.
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\item \var{stream_reader} is a class that supports decoding input from
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a stream. \var{stream_reader(\var{file_obj})} returns an object that
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supports the \method{read()}, \method{readline()}, and
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\method{readlines()} methods. These methods will all translate from
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the given encoding and return Unicode strings.
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\item \var{stream_writer}, similarly, is a class that supports
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encoding output to a stream. \var{stream_writer(\var{file_obj})}
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returns an object that supports the \method{write()} and
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\method{writelines()} methods. These methods expect Unicode strings,
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translating them to the given encoding on output.
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\end{itemize}
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For example, the following code writes a Unicode string into a file,
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encoding it as UTF-8:
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\begin{verbatim}
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import codecs
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unistr = u'\u0660\u2000ab ...'
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(UTF8_encode, UTF8_decode,
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UTF8_streamreader, UTF8_streamwriter) = codecs.lookup('UTF-8')
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output = UTF8_streamwriter( open( '/tmp/output', 'wb') )
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output.write( unistr )
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output.close()
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\end{verbatim}
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The following code would then read UTF-8 input from the file:
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\begin{verbatim}
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input = UTF8_streamread( open( '/tmp/output', 'rb') )
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print repr(input.read())
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input.close()
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\end{verbatim}
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Unicode-aware regular expressions are available through the
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\module{re} module, which has a new underlying implementation called
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SRE written by Fredrik Lundh of Secret Labs AB.
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A \code{-U} command line option was added which causes the Python
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compiler to interpret all string literals as Unicode string literals.
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This is intended to be used in testing and future-proofing your Python
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code, since some future version of Python may drop support for 8-bit
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strings and provide only Unicode strings.
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% ======================================================================
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\section{Distutils: Making Modules Easy to Install}
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Before Python 2.0, installing modules was a tedious affair -- there
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was no way to figure out automatically where Python is installed, or
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what compiler options to use for extension modules. Software authors
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had to go through an ardous ritual of editing Makefiles and
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configuration files, which only really work on Unix and leave Windows
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and MacOS unsupported. Software users faced wildly differing
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installation instructions
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The SIG for distribution utilities, shepherded by Greg Ward, has
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created the Distutils, a system to make package installation much
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easier. They form the \module{distutils} package, a new part of
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Python's standard library. In the best case, installing a Python
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module from source will require the same steps: first you simply mean
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unpack the tarball or zip archive, and the run ``\code{python setup.py
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install}''. The platform will be automatically detected, the compiler
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will be recognized, C extension modules will be compiled, and the
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distribution installed into the proper directory. Optional
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command-line arguments provide more control over the installation
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process, the distutils package offers many places to override defaults
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-- separating the build from the install, building or installing in
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non-default directories, and more.
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In order to use the Distutils, you need to write a \file{setup.py}
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script. For the simple case, when the software contains only .py
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files, a minimal \file{setup.py} can be just a few lines long:
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\begin{verbatim}
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from distutils.core import setup
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setup (name = "foo", version = "1.0",
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py_modules = ["module1", "module2"])
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\end{verbatim}
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The \file{setup.py} file isn't much more complicated if the software
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consists of a few packages:
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\begin{verbatim}
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from distutils.core import setup
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setup (name = "foo", version = "1.0",
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packages = ["package", "package.subpackage"])
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\end{verbatim}
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A C extension can be the most complicated case; here's an example taken from
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the PyXML package:
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\begin{verbatim}
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from distutils.core import setup, Extension
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expat_extension = Extension('xml.parsers.pyexpat',
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define_macros = [('XML_NS', None)],
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include_dirs = [ 'extensions/expat/xmltok',
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'extensions/expat/xmlparse' ],
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sources = [ 'extensions/pyexpat.c',
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'extensions/expat/xmltok/xmltok.c',
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'extensions/expat/xmltok/xmlrole.c',
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]
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)
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setup (name = "PyXML", version = "0.5.4",
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ext_modules =[ expat_extension ] )
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\end{verbatim}
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The Distutils can also take care of creating source and binary
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distributions. The ``sdist'' command, run by ``\code{python setup.py
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sdist}', builds a source distribution such as \file{foo-1.0.tar.gz}.
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Adding new commands isn't difficult, and a ``bdist_rpm'' command has
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already been contributed to create an RPM distribution for the
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software. Commands to create Windows installer programs, Debian
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packages, and Solaris .pkg files have been discussed and are in
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various stages of development.
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All this is documented in a new manual, \textit{Distributing Python
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Modules}, that joins the basic set of Python documentation.
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% ======================================================================
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\section{String Methods}
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Until now string-manipulation functionality was in the \module{string}
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Python module, which was usually a front-end for the \module{strop}
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module written in C. The addition of Unicode posed a difficulty for
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the \module{strop} module, because the functions would all need to be
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rewritten in order to accept either 8-bit or Unicode strings. For
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functions such as \function{string.replace()}, which takes 3 string
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arguments, that means eight possible permutations, and correspondingly
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complicated code.
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Instead, Python 2.0 pushes the problem onto the string type, making
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string manipulation functionality available through methods on both
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8-bit strings and Unicode strings.
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\begin{verbatim}
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>>> 'andrew'.capitalize()
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'Andrew'
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>>> 'hostname'.replace('os', 'linux')
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'hlinuxtname'
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>>> 'moshe'.find('sh')
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2
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\end{verbatim}
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One thing that hasn't changed, April Fools' jokes notwithstanding, is
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that Python strings are immutable. Thus, the string methods return new
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strings, and do not modify the string on which they operate.
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The old \module{string} module is still around for backwards
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compatibility, but it mostly acts as a front-end to the new string
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methods.
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Two methods which have no parallel in pre-2.0 versions, although they
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did exist in JPython for quite some time, are \method{startswith()}
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and \method{endswith}. \code{s.startswith(t)} is equivalent to \code{s[:len(t)]
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== t}, while \code{s.endswith(t)} is equivalent to \code{s[-len(t):] == t}.
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%One other method which deserves special mention is \method{join}. The
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%\method{join} method of a string receives one parameter, a sequence of
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%strings, and is equivalent to the \function{string.join} function from
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%the old \module{string} module, with the arguments reversed. In other
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%words, \code{s.join(seq)} is equivalent to the old
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%\code{string.join(seq, s)}.
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% ======================================================================
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\section{Porting to 2.0}
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New Python releases try hard to be compatible with previous releases,
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and the record has been pretty good. However, some changes are
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considered useful enough, often fixing initial design decisions that
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turned to be actively mistaken, that breaking backward compatibility
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can't always be avoided. This section lists the changes in Python 2.0
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that may cause old Python code to break.
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The change which will probably break the most code is tightening up
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the arguments accepted by some methods. Some methods would take
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multiple arguments and treat them as a tuple, particularly various
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list methods such as \method{.append()} and \method{.insert()}.
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In earlier versions of Python, if \code{L} is a list, \code{L.append(
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1,2 )} appends the tuple \code{(1,2)} to the list. In Python 2.0 this
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causes a \exception{TypeError} exception to be raised, with the
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message: 'append requires exactly 1 argument; 2 given'. The fix is to
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simply add an extra set of parentheses to pass both values as a tuple:
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\code{L.append( (1,2) )}.
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The earlier versions of these methods were more forgiving because they
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used an old function in Python's C interface to parse their arguments;
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2.0 modernizes them to use \function{PyArg_ParseTuple}, the current
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argument parsing function, which provides more helpful error messages
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and treats multi-argument calls as errors. If you absolutely must use
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2.0 but can't fix your code, you can edit \file{Objects/listobject.c}
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and define the preprocessor symbol \code{NO_STRICT_LIST_APPEND} to
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preserve the old behaviour; this isn't recommended.
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Some of the functions in the \module{socket} module are still
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forgiving in this way. For example, \function{socket.connect(
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('hostname', 25) )} is the correct form, passing a tuple representing
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an IP address, but \function{socket.connect( 'hostname', 25 )} also
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works. \function{socket.connect_ex()} and \function{socket.bind()} are
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similarly easy-going. 2.0alpha1 tightened these functions up, but
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because the documentation actually used the erroneous multiple
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argument form, many people wrote code which would break with the
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stricter checking. GvR backed out the changes in the face of public
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reaction, so for the\module{socket} module, the documentation was
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fixed and the multiple argument form is simply marked as deprecated;
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it \emph{will} be tightened up again in a future Python version.
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Some work has been done to make integers and long integers a bit more
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interchangeable. In 1.5.2, large-file support was added for Solaris,
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to allow reading files larger than 2Gb; this made the \method{tell()}
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method of file objects return a long integer instead of a regular
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integer. Some code would subtract two file offsets and attempt to use
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the result to multiply a sequence or slice a string, but this raised a
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\exception{TypeError}. In 2.0, long integers can be used to multiply
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or slice a sequence, and it'll behave as you'd intuitively expect it
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to; \code{3L * 'abc'} produces 'abcabcabc', and \code{
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(0,1,2,3)[2L:4L]} produces (2,3). Long integers can also be used in
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various new places where previously only integers were accepted, such
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as in the \method{seek()} method of file objects.
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The subtlest long integer change of all is that the \function{str()}
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of a long integer no longer has a trailing 'L' character, though
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\function{repr()} still includes it. The 'L' annoyed many people who
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wanted to print long integers that looked just like regular integers,
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since they had to go out of their way to chop off the character. This
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is no longer a problem in 2.0, but code which assumes the 'L' is
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there, and does \code{str(longval)[:-1]} will now lose the final
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digit.
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Taking the \function{repr()} of a float now uses a different
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formatting precision than \function{str()}. \function{repr()} uses
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\code{\%.17g} format string for C's \function{sprintf()}, while
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\function{str()} uses \code{\%.12g} as before. The effect is that
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\function{repr()} may occasionally show more decimal places than
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\function{str()}, for numbers
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For example, the number 8.1 can't be represented exactly in binary, so
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\code{repr(8.1)} is \code{'8.0999999999999996'}, while str(8.1) is
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\code{'8.1'}.
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The \code{-X} command-line option, which turned all standard
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exceptions into strings instead of classes, has been removed; the
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standard exceptions will now always be classes. The
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\module{exceptions} module containing the standard exceptions was
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translated from Python to a built-in C module, written by Barry Warsaw
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and Fredrik Lundh.
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% ======================================================================
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\section{Optional Collection of Cycles}
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The C implementation of Python uses reference counting to implement
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garbage collection. Every Python object maintains a count of the
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number of references pointing to itself, and adjusts the count as
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references are created or destroyed. Once the reference count reaches
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zero, the object is no longer accessible, since you need to have a
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reference to an object to access it, and if the count is zero, no
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references exist any longer.
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Reference counting has some pleasant properties: it's easy to
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understand and implement, and the resulting implementation is
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portable, fairly fast, and reacts well with other libraries that
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implement their own memory handling schemes. The major problem with
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reference counting is that it sometimes doesn't realise that objects
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are no longer accessible, resulting in a memory leak. This happens
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when there are cycles of references.
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Consider the simplest possible cycle,
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a class instance which has a reference to itself:
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\begin{verbatim}
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instance = SomeClass()
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instance.myself = instance
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\end{verbatim}
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After the above two lines of code have been executed, the reference
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count of \code{instance} is 2; one reference is from the variable
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named \samp{'instance'}, and the other is from the \samp{myself}
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attribute of the instance.
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If the next line of code is \code{del instance}, what happens? The
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reference count of \code{instance} is decreased by 1, so it has a
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reference count of 1; the reference in the \samp{myself} attribute
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still exists. Yet the instance is no longer accessible through Python
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code, and it could be deleted. Several objects can participate in a
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cycle if they have references to each other, causing all of the
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objects to be leaked.
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An experimental step has been made toward fixing this problem. When
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compiling Python, the \verb|--with-cycle-gc| option can be specified.
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This causes a cycle detection algorithm to be periodically executed,
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which looks for inaccessible cycles and deletes the objects involved.
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A new \module{gc} module provides functions to perform a garbage
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collection, obtain debugging statistics, and tuning the collector's parameters.
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Why isn't cycle detection enabled by default? Running the cycle detection
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algorithm takes some time, and some tuning will be required to
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minimize the overhead cost. It's not yet obvious how much performance
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is lost, because benchmarking this is tricky and depends crucially
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on how often the program creates and destroys objects.
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Several people tackled this problem and contributed to a solution. An
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early implementation of the cycle detection approach was written by
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Toby Kelsey. The current algorithm was suggested by Eric Tiedemann
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during a visit to CNRI, and Guido van Rossum and Neil Schemenauer
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wrote two different implementations, which were later integrated by
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Neil. Lots of other people offered suggestions along the way; the
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March 2000 archives of the python-dev mailing list contain most of the
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relevant discussion, especially in the threads titled ``Reference
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cycle collection for Python'' and ``Finalization again''.
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% ======================================================================
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\section{Core Changes}
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Various minor changes have been made to Python's syntax and built-in
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functions. None of the changes are very far-reaching, but they're
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handy conveniences.
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|
|
A change to syntax makes it more convenient to call a given function
|
|
with a tuple of arguments and/or a dictionary of keyword arguments.
|
|
In Python 1.5 and earlier, you do this with the \function{apply()}
|
|
built-in function: \code{apply(f, \var{args}, \var{kw})} calls the
|
|
function \function{f()} with the argument tuple \var{args} and the
|
|
keyword arguments in the dictionary \var{kw}. Thanks to a patch from
|
|
Greg Ewing, 2.0 adds \code{f(*\var{args}, **\var{kw})} as a shorter
|
|
and clearer way to achieve the same effect. This syntax is
|
|
symmetrical with the syntax for defining functions:
|
|
|
|
\begin{verbatim}
|
|
def f(*args, **kw):
|
|
# args is a tuple of positional args,
|
|
# kw is a dictionary of keyword args
|
|
...
|
|
\end{verbatim}
|
|
|
|
A new format style is available when using the \code{\%} operator.
|
|
'\%r' will insert the \function{repr()} of its argument. This was
|
|
also added from symmetry considerations, this time for symmetry with
|
|
the existing '\%s' format style, which inserts the \function{str()} of
|
|
its argument. For example, \code{'\%r \%s' \% ('abc', 'abc')} returns a
|
|
string containing \verb|'abc' abc|.
|
|
|
|
The \function{int()} and \function{long()} functions now accept an
|
|
optional ``base'' parameter when the first argument is a string.
|
|
\code{int('123', 10)} returns 123, while \code{int('123', 16)} returns
|
|
291. \code{int(123, 16)} raises a \exception{TypeError} exception
|
|
with the message ``can't convert non-string with explicit base''.
|
|
|
|
Previously there was no way to implement a class that overrode
|
|
Python's built-in \keyword{in} operator and implemented a custom
|
|
version. \code{\var{obj} in \var{seq}} returns true if \var{obj} is
|
|
present in the sequence \var{seq}; Python computes this by simply
|
|
trying every index of the sequence until either \var{obj} is found or
|
|
an \exception{IndexError} is encountered. Moshe Zadka contributed a
|
|
patch which adds a \method{__contains__} magic method for providing a
|
|
custom implementation for \keyword{in}. Additionally, new built-in
|
|
objects written in C can define what \keyword{in} means for them via a
|
|
new slot in the sequence protocol.
|
|
|
|
Earlier versions of Python used a recursive algorithm for deleting
|
|
objects. Deeply nested data structures could cause the interpreter to
|
|
fill up the C stack and crash; Christian Tismer rewrote the deletion
|
|
logic to fix this problem. On a related note, comparing recursive
|
|
objects recursed infinitely and crashed; Jeremy Hylton rewrote the
|
|
code to no longer crash, producing a useful result instead. For
|
|
example, after this code:
|
|
|
|
\begin{verbatim}
|
|
a = []
|
|
b = []
|
|
a.append(a)
|
|
b.append(b)
|
|
\end{verbatim}
|
|
|
|
The comparison \code{a==b} returns true, because the two recursive
|
|
data structures are isomorphic.
|
|
\footnote{See the thread ``trashcan and PR\#7'' in the April 2000 archives of the python-dev mailing list for the discussion leading up to this implementation, and some useful relevant links.
|
|
%http://www.python.org/pipermail/python-dev/2000-April/004834.html
|
|
}
|
|
|
|
Work has been done on porting Python to 64-bit Windows on the Itanium
|
|
processor, mostly by Trent Mick of ActiveState. (Confusingly, \code{sys.platform} is still \code{'win32'} on
|
|
Win64 because it seems that for ease of porting, MS Visual C++ treats code
|
|
as 32 bit.
|
|
) PythonWin also supports Windows CE; see the Python CE page at
|
|
\url{http://starship.python.net/crew/mhammond/ce/} for more information.
|
|
|
|
An attempt has been made to alleviate one of Python's warts, the
|
|
often-confusing \exception{NameError} exception when code refers to a
|
|
local variable before the variable has been assigned a value. For
|
|
example, the following code raises an exception on the \keyword{print}
|
|
statement in both 1.5.2 and 2.0; in 1.5.2 a \exception{NameError}
|
|
exception is raised, while 2.0 raises a new
|
|
\exception{UnboundLocalError} exception.
|
|
\exception{UnboundLocalError} is a subclass of \exception{NameError},
|
|
so any existing code that expects \exception{NameError} to be raised
|
|
should still work.
|
|
|
|
\begin{verbatim}
|
|
def f():
|
|
print "i=",i
|
|
i = i + 1
|
|
f()
|
|
\end{verbatim}
|
|
|
|
A new variable holding more detailed version information has been
|
|
added to the \module{sys} module. \code{sys.version_info} is a tuple
|
|
\code{(\var{major}, \var{minor}, \var{micro}, \var{level},
|
|
\var{serial})} For example, in 2.0a2 \code{sys.version_info} is
|
|
\code{(1, 6, 0, 'alpha', 2)}. \var{level} is a string such as
|
|
\code{"alpha"}, \code{"beta"}, or \code{""} for a final release.
|
|
|
|
% ======================================================================
|
|
\section{Extending/Embedding Changes}
|
|
|
|
Some of the changes are under the covers, and will only be apparent to
|
|
people writing C extension modules, or embedding a Python interpreter
|
|
in a larger application. If you aren't dealing with Python's C API,
|
|
you can safely skip this section.
|
|
|
|
The version number of the Python C API was incremented, so C
|
|
extensions compiled for 1.5.2 must be recompiled in order to work with
|
|
2.0. On Windows, attempting to import a third party extension built
|
|
for Python 1.5.x usually results in an immediate crash; there's not
|
|
much we can do about this. (Here's Mark Hammond's explanation of the
|
|
reasons for the crash. The 1.5 module is linked against
|
|
\file{Python15.dll}. When \file{Python.exe} , linked against
|
|
\file{Python16.dll}, starts up, it initializes the Python data
|
|
structures in \file{Python16.dll}. When Python then imports the
|
|
module \file{foo.pyd} linked against \file{Python15.dll}, it
|
|
immediately tries to call the functions in that DLL. As Python has
|
|
not been initialized in that DLL, the program immediately crashes.)
|
|
|
|
Users of Jim Fulton's ExtensionClass module will be pleased to find
|
|
out that hooks have been added so that ExtensionClasses are now
|
|
supported by \function{isinstance()} and \function{issubclass()}.
|
|
This means you no longer have to remember to write code such as
|
|
\code{if type(obj) == myExtensionClass}, but can use the more natural
|
|
\code{if isinstance(obj, myExtensionClass)}.
|
|
|
|
The \file{Python/importdl.c} file, which was a mass of \#ifdefs to
|
|
support dynamic loading on many different platforms, was cleaned up
|
|
and reorganised by Greg Stein. \file{importdl.c} is now quite small,
|
|
and platform-specific code has been moved into a bunch of
|
|
\file{Python/dynload_*.c} files.
|
|
|
|
Vladimir Marangozov's long-awaited malloc restructuring was completed,
|
|
to make it easy to have the Python interpreter use a custom allocator
|
|
instead of C's standard \function{malloc()}. For documentation, read
|
|
the comments in \file{Include/mymalloc.h} and
|
|
\file{Include/objimpl.h}. For the lengthy discussions during which
|
|
the interface was hammered out, see the Web archives of the 'patches'
|
|
and 'python-dev' lists at python.org.
|
|
|
|
Recent versions of the GUSI development environment for MacOS support
|
|
POSIX threads. Therefore, Python's POSIX threading support now works
|
|
on the Macintosh. Threading support using the user-space GNU \texttt{pth}
|
|
library was also contributed.
|
|
|
|
Threading support on Windows was enhanced, too. Windows supports
|
|
thread locks that use kernel objects only in case of contention; in
|
|
the common case when there's no contention, they use simpler functions
|
|
which are an order of magnitude faster. A threaded version of Python
|
|
1.5.2 on NT is twice as slow as an unthreaded version; with the 2.0
|
|
changes, the difference is only 10\%. These improvements were
|
|
contributed by Yakov Markovitch.
|
|
|
|
% ======================================================================
|
|
\section{Module changes}
|
|
|
|
Lots of improvements and bugfixes were made to Python's extensive
|
|
standard library; some of the affected modules include
|
|
\module{readline}, \module{ConfigParser}, \module{cgi},
|
|
\module{calendar}, \module{posix}, \module{readline}, \module{xmllib},
|
|
\module{aifc}, \module{chunk, wave}, \module{random}, \module{shelve},
|
|
and \module{nntplib}. Consult the CVS logs for the exact
|
|
patch-by-patch details.
|
|
|
|
Brian Gallew contributed OpenSSL support for the \module{socket}
|
|
module. OpenSSL is an implementation of the Secure Socket Layer,
|
|
which encrypts the data being sent over a socket. When compiling
|
|
Python, you can edit \file{Modules/Setup} to include SSL support,
|
|
which adds an additional function to the \module{socket} module:
|
|
\function{socket.ssl(\var{socket}, \var{keyfile}, \var{certfile})},
|
|
which takes a socket object and returns an SSL socket. The
|
|
\module{httplib} and \module{urllib} modules were also changed to
|
|
support ``https://'' URLs, though no one has implemented FTP or SMTP
|
|
over SSL.
|
|
|
|
The \module{httplib} module has been rewritten by Greg Stein to
|
|
support HTTP/1.1. Backward compatibility with the 1.5 version of
|
|
\module{httplib} is provided, though using HTTP/1.1 features such as
|
|
pipelining will require rewriting code to use a different set of
|
|
interfaces.
|
|
|
|
The \module{Tkinter} module now supports Tcl/Tk version 8.1, 8.2, or
|
|
8.3, and support for the older 7.x versions has been dropped. The
|
|
Tkinter module also supports displaying Unicode strings in Tk
|
|
widgets.
|
|
|
|
The \module{curses} module has been greatly extended, starting from
|
|
Oliver Andrich's enhanced version, to provide many additional
|
|
functions from ncurses and SYSV curses, such as colour, alternative
|
|
character set support, pads, and mouse support. This means the module
|
|
is no longer compatible with operating systems that only have BSD
|
|
curses, but there don't seem to be any currently maintained OSes that
|
|
fall into this category.
|
|
|
|
As mentioned in the earlier discussion of 2.0's Unicode support, the
|
|
underlying implementation of the regular expressions provided by the
|
|
\module{re} module has been changed. SRE, a new regular expression
|
|
engine written by Fredrik Lundh and partially funded by Hewlett
|
|
Packard, supports matching against both 8-bit strings and Unicode
|
|
strings.
|
|
|
|
% ======================================================================
|
|
\section{New modules}
|
|
|
|
A number of new modules were added. We'll simply list them with brief
|
|
descriptions; consult the 2.0 documentation for the details of a
|
|
particular module.
|
|
|
|
\begin{itemize}
|
|
|
|
\item{\module{atexit}}:
|
|
For registering functions to be called before the Python interpreter exits.
|
|
Code that currently sets
|
|
\code{sys.exitfunc} directly should be changed to
|
|
use the \module{atexit} module instead, importing \module{atexit}
|
|
and calling \function{atexit.register()} with
|
|
the function to be called on exit.
|
|
(Contributed by Skip Montanaro.)
|
|
|
|
\item{\module{codecs}, \module{encodings}, \module{unicodedata}:} Added as part of the new Unicode support.
|
|
|
|
\item{\module{filecmp}:} Supersedes the old \module{cmp} and
|
|
\module{dircmp} modules, which have now become deprecated.
|
|
(Contributed by Gordon MacMillan and Moshe Zadka.)
|
|
|
|
\item{\module{linuxaudio}:} Support for the \file{/dev/audio} device on Linux,
|
|
a twin to the existing \module{sunaudiodev} module.
|
|
(Contributed by Peter Bosch.)
|
|
|
|
\item{\module{mmap}:} An interface to memory-mapped files on both
|
|
Windows and Unix. A file's contents can be mapped directly into
|
|
memory, at which point it behaves like a mutable string, so its
|
|
contents can be read and modified. They can even be passed to
|
|
functions that expect ordinary strings, such as the \module{re}
|
|
module. (Contributed by Sam Rushing, with some extensions by
|
|
A.M. Kuchling.)
|
|
|
|
\item{\module{PyExpat}:} An interface to the Expat XML parser.
|
|
(Contributed by Paul Prescod.)
|
|
|
|
\item{\module{robotparser}:} Parse a \file{robots.txt} file, which is
|
|
used for writing Web spiders that politely avoid certain areas of a
|
|
Web site. The parser accepts the contents of a \file{robots.txt} file
|
|
builds a set of rules from it, and can then answer questions about
|
|
the fetchability of a given URL. (Contributed by Skip Montanaro.)
|
|
|
|
\item{\module{tabnanny}:} A module/script to
|
|
checks Python source code for ambiguous indentation.
|
|
(Contributed by Tim Peters.)
|
|
|
|
\item{\module{UserString}:} A base class useful for deriving objects that behave like strings.
|
|
|
|
\item{\module{winreg} and \module{_winreg}:} An interface to the
|
|
Windows registry. \module{winreg} has been part of PythonWin since
|
|
1995, but now has been added to the core distribution, and enhanced to
|
|
support Unicode. \module{_winreg} is a low-level wrapper of the
|
|
Windows registry functions, contributed by Bill Tutt and Mark Hammond,
|
|
while \module{winreg} is a higher-level, more object-oriented API on top of
|
|
\module{_winreg}, designed by Thomas Heller and implemented by Paul Prescod.
|
|
|
|
\item{\module{zipfile}:} A module for reading and writing ZIP-format
|
|
archives. These are archives produced by \program{PKZIP} on
|
|
DOS/Windows or \program{zip} on Unix, not to be confused with
|
|
\program{gzip}-format files (which are supported by the \module{gzip}
|
|
module)
|
|
(Contributed by James C. Ahlstrom.)
|
|
|
|
\item{\module{imputil}:} A module that provides a simpler way for
|
|
writing customised import hooks, in comparison to the existing
|
|
\module{ihooks} module. (Implemented by Greg Stein, with much
|
|
discussion on python-dev along the way.)
|
|
|
|
\end{itemize}
|
|
|
|
% ======================================================================
|
|
\section{IDLE Improvements}
|
|
|
|
IDLE is the official Python cross-platform IDE, written using Tkinter.
|
|
Python 2.0 includes IDLE 0.6, which adds a number of new features and
|
|
improvements. A partial list:
|
|
|
|
\begin{itemize}
|
|
\item UI improvements and optimizations,
|
|
especially in the area of syntax highlighting and auto-indentation.
|
|
|
|
\item The class browser now shows more information, such as the top
|
|
level functions in a module.
|
|
|
|
\item Tab width is now a user settable option. When opening an existing Python
|
|
file, IDLE automatically detects the indentation conventions, and adapts.
|
|
|
|
\item There is now support for calling browsers on various platforms,
|
|
used to open the Python documentation in a browser.
|
|
|
|
\item IDLE now has a command line, which is largely similar to
|
|
the vanilla Python interpreter.
|
|
|
|
\item Call tips were added in many places.
|
|
|
|
\item IDLE can now be installed as a package.
|
|
|
|
\item In the editor window, there is now a line/column bar at the bottom.
|
|
|
|
\item Three new keystroke commands: Check module (Alt-F5), Import
|
|
module (F5) and Run script (Ctrl-F5).
|
|
|
|
\end{itemize}
|
|
|
|
% ======================================================================
|
|
\section{Deleted and Deprecated Modules}
|
|
|
|
A few modules have been dropped because they're obsolete, or because
|
|
there are now better ways to do the same thing. The \module{stdwin}
|
|
module is gone; it was for a platform-independent windowing toolkit
|
|
that's no longer developed.
|
|
|
|
A number of modules have been moved to the
|
|
\file{lib-old} subdirectory:
|
|
\module{cmp}, \module{cmpcache}, \module{dircmp}, \module{dump},
|
|
\module{find}, \module{grep}, \module{packmail},
|
|
\module{poly}, \module{util}, \module{whatsound}, \module{zmod}.
|
|
If you have code which relies on a module that's been moved to
|
|
\file{lib-old}, you can simply add that directory to \code{sys.path}
|
|
to get them back, but you're encouraged to update any code that uses
|
|
these modules.
|
|
|
|
\section{Acknowledgements}
|
|
|
|
The author would like to thank the following people for offering
|
|
suggestions on drafts of this article: Fredrik Lundh, Skip
|
|
Montanaro, Vladimir Marangozov, Guido van Rossum, Neil Schemenauer.
|
|
|
|
\end{document}
|
|
|