| \documentclass{howto} |
| \usepackage{distutils} |
| % $Id$ |
| |
| \title{What's New in Python 2.3} |
| \release{0.11} |
| \author{A.M.\ Kuchling} |
| \authoraddress{\email{amk@amk.ca}} |
| |
| \begin{document} |
| \maketitle |
| \tableofcontents |
| |
| % To do: |
| % PYTHONINSPECT |
| % file.encoding |
| % doctest extensions |
| % new version of IDLE |
| % XML-RPC nil extension |
| % MacOS framework-related changes (section of its own, probably) |
| |
| %\section{Introduction \label{intro}} |
| |
| {\large This article is a draft, and is currently up to date for |
| Python 2.3rc1. Please send any additions, comments or errata to the |
| author.} |
| |
| This article explains the new features in Python 2.3. The tentative |
| release date of Python 2.3 is currently scheduled for August 2003. |
| |
| This article doesn't attempt to provide a complete specification of |
| the new features, but instead provides a convenient overview. For |
| full details, you should refer to the documentation for Python 2.3, |
| such as the \citetitle[../lib/lib.html]{Python Library Reference} and |
| the \citetitle[../ref/ref.html]{Python Reference Manual}. If you want |
| to understand the complete implementation and design rationale, |
| refer to the PEP for a particular new feature. |
| |
| |
| %====================================================================== |
| \section{PEP 218: A Standard Set Datatype} |
| |
| The new \module{sets} module contains an implementation of a set |
| datatype. The \class{Set} class is for mutable sets, sets that can |
| have members added and removed. The \class{ImmutableSet} class is for |
| sets that can't be modified, and instances of \class{ImmutableSet} can |
| therefore be used as dictionary keys. Sets are built on top of |
| dictionaries, so the elements within a set must be hashable. |
| |
| Here's a simple example: |
| |
| \begin{verbatim} |
| >>> import sets |
| >>> S = sets.Set([1,2,3]) |
| >>> S |
| Set([1, 2, 3]) |
| >>> 1 in S |
| True |
| >>> 0 in S |
| False |
| >>> S.add(5) |
| >>> S.remove(3) |
| >>> S |
| Set([1, 2, 5]) |
| >>> |
| \end{verbatim} |
| |
| The union and intersection of sets can be computed with the |
| \method{union()} and \method{intersection()} methods; an alternative |
| notation uses the bitwise operators \code{\&} and \code{|}. |
| Mutable sets also have in-place versions of these methods, |
| \method{union_update()} and \method{intersection_update()}. |
| |
| \begin{verbatim} |
| >>> S1 = sets.Set([1,2,3]) |
| >>> S2 = sets.Set([4,5,6]) |
| >>> S1.union(S2) |
| Set([1, 2, 3, 4, 5, 6]) |
| >>> S1 | S2 # Alternative notation |
| Set([1, 2, 3, 4, 5, 6]) |
| >>> S1.intersection(S2) |
| Set([]) |
| >>> S1 & S2 # Alternative notation |
| Set([]) |
| >>> S1.union_update(S2) |
| >>> S1 |
| Set([1, 2, 3, 4, 5, 6]) |
| >>> |
| \end{verbatim} |
| |
| It's also possible to take the symmetric difference of two sets. This |
| is the set of all elements in the union that aren't in the |
| intersection. Another way of putting it is that the symmetric |
| difference contains all elements that are in exactly one |
| set. Again, there's an alternative notation (\code{\^}), and an |
| in-place version with the ungainly name |
| \method{symmetric_difference_update()}. |
| |
| \begin{verbatim} |
| >>> S1 = sets.Set([1,2,3,4]) |
| >>> S2 = sets.Set([3,4,5,6]) |
| >>> S1.symmetric_difference(S2) |
| Set([1, 2, 5, 6]) |
| >>> S1 ^ S2 |
| Set([1, 2, 5, 6]) |
| >>> |
| \end{verbatim} |
| |
| There are also \method{issubset()} and \method{issuperset()} methods |
| for checking whether one set is a subset or superset of another: |
| |
| \begin{verbatim} |
| >>> S1 = sets.Set([1,2,3]) |
| >>> S2 = sets.Set([2,3]) |
| >>> S2.issubset(S1) |
| True |
| >>> S1.issubset(S2) |
| False |
| >>> S1.issuperset(S2) |
| True |
| >>> |
| \end{verbatim} |
| |
| |
| \begin{seealso} |
| |
| \seepep{218}{Adding a Built-In Set Object Type}{PEP written by Greg V. Wilson. |
| Implemented by Greg V. Wilson, Alex Martelli, and GvR.} |
| |
| \end{seealso} |
| |
| |
| |
| %====================================================================== |
| \section{PEP 255: Simple Generators\label{section-generators}} |
| |
| In Python 2.2, generators were added as an optional feature, to be |
| enabled by a \code{from __future__ import generators} directive. In |
| 2.3 generators no longer need to be specially enabled, and are now |
| always present; this means that \keyword{yield} is now always a |
| keyword. The rest of this section is a copy of the description of |
| generators from the ``What's New in Python 2.2'' document; if you read |
| it back when Python 2.2 came out, you can skip the rest of this section. |
| |
| You're doubtless familiar with how function calls work in Python or C. |
| When you call a function, it gets a private namespace where its local |
| variables are created. When the function reaches a \keyword{return} |
| statement, the local variables are destroyed and the resulting value |
| is returned to the caller. A later call to the same function will get |
| a fresh new set of local variables. But, what if the local variables |
| weren't thrown away on exiting a function? What if you could later |
| resume the function where it left off? This is what generators |
| provide; they can be thought of as resumable functions. |
| |
| Here's the simplest example of a generator function: |
| |
| \begin{verbatim} |
| def generate_ints(N): |
| for i in range(N): |
| yield i |
| \end{verbatim} |
| |
| A new keyword, \keyword{yield}, was introduced for generators. Any |
| function containing a \keyword{yield} statement is a generator |
| function; this is detected by Python's bytecode compiler which |
| compiles the function specially as a result. |
| |
| When you call a generator function, it doesn't return a single value; |
| instead it returns a generator object that supports the iterator |
| protocol. On executing the \keyword{yield} statement, the generator |
| outputs the value of \code{i}, similar to a \keyword{return} |
| statement. The big difference between \keyword{yield} and a |
| \keyword{return} statement is that on reaching a \keyword{yield} the |
| generator's state of execution is suspended and local variables are |
| preserved. On the next call to the generator's \code{.next()} method, |
| the function will resume executing immediately after the |
| \keyword{yield} statement. (For complicated reasons, the |
| \keyword{yield} statement isn't allowed inside the \keyword{try} block |
| of a \keyword{try}...\keyword{finally} statement; read \pep{255} for a full |
| explanation of the interaction between \keyword{yield} and |
| exceptions.) |
| |
| Here's a sample usage of the \function{generate_ints()} generator: |
| |
| \begin{verbatim} |
| >>> gen = generate_ints(3) |
| >>> gen |
| <generator object at 0x8117f90> |
| >>> gen.next() |
| 0 |
| >>> gen.next() |
| 1 |
| >>> gen.next() |
| 2 |
| >>> gen.next() |
| Traceback (most recent call last): |
| File "stdin", line 1, in ? |
| File "stdin", line 2, in generate_ints |
| StopIteration |
| \end{verbatim} |
| |
| You could equally write \code{for i in generate_ints(5)}, or |
| \code{a,b,c = generate_ints(3)}. |
| |
| Inside a generator function, the \keyword{return} statement can only |
| be used without a value, and signals the end of the procession of |
| values; afterwards the generator cannot return any further values. |
| \keyword{return} with a value, such as \code{return 5}, is a syntax |
| error inside a generator function. The end of the generator's results |
| can also be indicated by raising \exception{StopIteration} manually, |
| or by just letting the flow of execution fall off the bottom of the |
| function. |
| |
| You could achieve the effect of generators manually by writing your |
| own class and storing all the local variables of the generator as |
| instance variables. For example, returning a list of integers could |
| be done by setting \code{self.count} to 0, and having the |
| \method{next()} method increment \code{self.count} and return it. |
| However, for a moderately complicated generator, writing a |
| corresponding class would be much messier. |
| \file{Lib/test/test_generators.py} contains a number of more |
| interesting examples. The simplest one implements an in-order |
| traversal of a tree using generators recursively. |
| |
| \begin{verbatim} |
| # A recursive generator that generates Tree leaves in in-order. |
| def inorder(t): |
| if t: |
| for x in inorder(t.left): |
| yield x |
| yield t.label |
| for x in inorder(t.right): |
| yield x |
| \end{verbatim} |
| |
| Two other examples in \file{Lib/test/test_generators.py} produce |
| solutions for the N-Queens problem (placing $N$ queens on an $NxN$ |
| chess board so that no queen threatens another) and the Knight's Tour |
| (a route that takes a knight to every square of an $NxN$ chessboard |
| without visiting any square twice). |
| |
| The idea of generators comes from other programming languages, |
| especially Icon (\url{http://www.cs.arizona.edu/icon/}), where the |
| idea of generators is central. In Icon, every |
| expression and function call behaves like a generator. One example |
| from ``An Overview of the Icon Programming Language'' at |
| \url{http://www.cs.arizona.edu/icon/docs/ipd266.htm} gives an idea of |
| what this looks like: |
| |
| \begin{verbatim} |
| sentence := "Store it in the neighboring harbor" |
| if (i := find("or", sentence)) > 5 then write(i) |
| \end{verbatim} |
| |
| In Icon the \function{find()} function returns the indexes at which the |
| substring ``or'' is found: 3, 23, 33. In the \keyword{if} statement, |
| \code{i} is first assigned a value of 3, but 3 is less than 5, so the |
| comparison fails, and Icon retries it with the second value of 23. 23 |
| is greater than 5, so the comparison now succeeds, and the code prints |
| the value 23 to the screen. |
| |
| Python doesn't go nearly as far as Icon in adopting generators as a |
| central concept. Generators are considered part of the core |
| Python language, but learning or using them isn't compulsory; if they |
| don't solve any problems that you have, feel free to ignore them. |
| One novel feature of Python's interface as compared to |
| Icon's is that a generator's state is represented as a concrete object |
| (the iterator) that can be passed around to other functions or stored |
| in a data structure. |
| |
| \begin{seealso} |
| |
| \seepep{255}{Simple Generators}{Written by Neil Schemenauer, Tim |
| Peters, Magnus Lie Hetland. Implemented mostly by Neil Schemenauer |
| and Tim Peters, with other fixes from the Python Labs crew.} |
| |
| \end{seealso} |
| |
| |
| %====================================================================== |
| \section{PEP 263: Source Code Encodings \label{section-encodings}} |
| |
| Python source files can now be declared as being in different |
| character set encodings. Encodings are declared by including a |
| specially formatted comment in the first or second line of the source |
| file. For example, a UTF-8 file can be declared with: |
| |
| \begin{verbatim} |
| #!/usr/bin/env python |
| # -*- coding: UTF-8 -*- |
| \end{verbatim} |
| |
| Without such an encoding declaration, the default encoding used is |
| 7-bit ASCII. Executing or importing modules that contain string |
| literals with 8-bit characters and have no encoding declaration will result |
| in a \exception{DeprecationWarning} being signalled by Python 2.3; in |
| 2.4 this will be a syntax error. |
| |
| The encoding declaration only affects Unicode string literals, which |
| will be converted to Unicode using the specified encoding. Note that |
| Python identifiers are still restricted to ASCII characters, so you |
| can't have variable names that use characters outside of the usual |
| alphanumerics. |
| |
| \begin{seealso} |
| |
| \seepep{263}{Defining Python Source Code Encodings}{Written by |
| Marc-Andr\'e Lemburg and Martin von~L\"owis; implemented by Suzuki |
| Hisao and Martin von~L\"owis.} |
| |
| \end{seealso} |
| |
| |
| %====================================================================== |
| \section{PEP 277: Unicode file name support for Windows NT} |
| |
| On Windows NT, 2000, and XP, the system stores file names as Unicode |
| strings. Traditionally, Python has represented file names as byte |
| strings, which is inadequate because it renders some file names |
| inaccessible. |
| |
| Python now allows using arbitrary Unicode strings (within the |
| limitations of the file system) for all functions that expect file |
| names, most notably the \function{open()} built-in function. If a Unicode |
| string is passed to \function{os.listdir()}, Python now returns a list |
| of Unicode strings. A new function, \function{os.getcwdu()}, returns |
| the current directory as a Unicode string. |
| |
| Byte strings still work as file names, and on Windows Python will |
| transparently convert them to Unicode using the \code{mbcs} encoding. |
| |
| Other systems also allow Unicode strings as file names but convert |
| them to byte strings before passing them to the system, which can |
| cause a \exception{UnicodeError} to be raised. Applications can test |
| whether arbitrary Unicode strings are supported as file names by |
| checking \member{os.path.supports_unicode_filenames}, a Boolean value. |
| |
| Under MacOS, \function{os.listdir()} may now return Unicode filenames. |
| |
| \begin{seealso} |
| |
| \seepep{277}{Unicode file name support for Windows NT}{Written by Neil |
| Hodgson; implemented by Neil Hodgson, Martin von~L\"owis, and Mark |
| Hammond.} |
| |
| \end{seealso} |
| |
| |
| %====================================================================== |
| \section{PEP 278: Universal Newline Support} |
| |
| The three major operating systems used today are Microsoft Windows, |
| Apple's Macintosh OS, and the various \UNIX\ derivatives. A minor |
| irritation of cross-platform work |
| is that these three platforms all use different characters |
| to mark the ends of lines in text files. \UNIX\ uses the linefeed |
| (ASCII character 10), MacOS uses the carriage return (ASCII |
| character 13), and Windows uses a two-character sequence of a |
| carriage return plus a newline. |
| |
| Python's file objects can now support end of line conventions other |
| than the one followed by the platform on which Python is running. |
| Opening a file with the mode \code{'U'} or \code{'rU'} will open a file |
| for reading in universal newline mode. All three line ending |
| conventions will be translated to a \character{\e n} in the strings |
| returned by the various file methods such as \method{read()} and |
| \method{readline()}. |
| |
| Universal newline support is also used when importing modules and when |
| executing a file with the \function{execfile()} function. This means |
| that Python modules can be shared between all three operating systems |
| without needing to convert the line-endings. |
| |
| This feature can be disabled when compiling Python by specifying |
| the \longprogramopt{without-universal-newlines} switch when running Python's |
| \program{configure} script. |
| |
| \begin{seealso} |
| |
| \seepep{278}{Universal Newline Support}{Written |
| and implemented by Jack Jansen.} |
| |
| \end{seealso} |
| |
| |
| %====================================================================== |
| \section{PEP 279: enumerate()\label{section-enumerate}} |
| |
| A new built-in function, \function{enumerate()}, will make |
| certain loops a bit clearer. \code{enumerate(thing)}, where |
| \var{thing} is either an iterator or a sequence, returns a iterator |
| that will return \code{(0, \var{thing}[0])}, \code{(1, |
| \var{thing}[1])}, \code{(2, \var{thing}[2])}, and so forth. |
| |
| A common idiom to change every element of a list looks like this: |
| |
| \begin{verbatim} |
| for i in range(len(L)): |
| item = L[i] |
| # ... compute some result based on item ... |
| L[i] = result |
| \end{verbatim} |
| |
| This can be rewritten using \function{enumerate()} as: |
| |
| \begin{verbatim} |
| for i, item in enumerate(L): |
| # ... compute some result based on item ... |
| L[i] = result |
| \end{verbatim} |
| |
| |
| \begin{seealso} |
| |
| \seepep{279}{The enumerate() built-in function}{Written |
| and implemented by Raymond D. Hettinger.} |
| |
| \end{seealso} |
| |
| |
| %====================================================================== |
| \section{PEP 282: The logging Package} |
| |
| A standard package for writing logs, \module{logging}, has been added |
| to Python 2.3. It provides a powerful and flexible mechanism for |
| generating logging output which can then be filtered and processed in |
| various ways. A configuration file written in a standard format can |
| be used to control the logging behavior of a program. Python |
| includes handlers that will write log records to |
| standard error or to a file or socket, send them to the system log, or |
| even e-mail them to a particular address; of course, it's also |
| possible to write your own handler classes. |
| |
| The \class{Logger} class is the primary class. |
| Most application code will deal with one or more \class{Logger} |
| objects, each one used by a particular subsystem of the application. |
| Each \class{Logger} is identified by a name, and names are organized |
| into a hierarchy using \samp{.} as the component separator. For |
| example, you might have \class{Logger} instances named \samp{server}, |
| \samp{server.auth} and \samp{server.network}. The latter two |
| instances are below \samp{server} in the hierarchy. This means that |
| if you turn up the verbosity for \samp{server} or direct \samp{server} |
| messages to a different handler, the changes will also apply to |
| records logged to \samp{server.auth} and \samp{server.network}. |
| There's also a root \class{Logger} that's the parent of all other |
| loggers. |
| |
| For simple uses, the \module{logging} package contains some |
| convenience functions that always use the root log: |
| |
| \begin{verbatim} |
| import logging |
| |
| logging.debug('Debugging information') |
| logging.info('Informational message') |
| logging.warning('Warning:config file %s not found', 'server.conf') |
| logging.error('Error occurred') |
| logging.critical('Critical error -- shutting down') |
| \end{verbatim} |
| |
| This produces the following output: |
| |
| \begin{verbatim} |
| WARNING:root:Warning:config file server.conf not found |
| ERROR:root:Error occurred |
| CRITICAL:root:Critical error -- shutting down |
| \end{verbatim} |
| |
| In the default configuration, informational and debugging messages are |
| suppressed and the output is sent to standard error. You can enable |
| the display of informational and debugging messages by calling the |
| \method{setLevel()} method on the root logger. |
| |
| Notice the \function{warning()} call's use of string formatting |
| operators; all of the functions for logging messages take the |
| arguments \code{(\var{msg}, \var{arg1}, \var{arg2}, ...)} and log the |
| string resulting from \code{\var{msg} \% (\var{arg1}, \var{arg2}, |
| ...)}. |
| |
| There's also an \function{exception()} function that records the most |
| recent traceback. Any of the other functions will also record the |
| traceback if you specify a true value for the keyword argument |
| \var{exc_info}. |
| |
| \begin{verbatim} |
| def f(): |
| try: 1/0 |
| except: logging.exception('Problem recorded') |
| |
| f() |
| \end{verbatim} |
| |
| This produces the following output: |
| |
| \begin{verbatim} |
| ERROR:root:Problem recorded |
| Traceback (most recent call last): |
| File "t.py", line 6, in f |
| 1/0 |
| ZeroDivisionError: integer division or modulo by zero |
| \end{verbatim} |
| |
| Slightly more advanced programs will use a logger other than the root |
| logger. The \function{getLogger(\var{name})} function is used to get |
| a particular log, creating it if it doesn't exist yet. |
| \function{getLogger(None)} returns the root logger. |
| |
| |
| \begin{verbatim} |
| log = logging.getLogger('server') |
| ... |
| log.info('Listening on port %i', port) |
| ... |
| log.critical('Disk full') |
| ... |
| \end{verbatim} |
| |
| Log records are usually propagated up the hierarchy, so a message |
| logged to \samp{server.auth} is also seen by \samp{server} and |
| \samp{root}, but a \class{Logger} can prevent this by setting its |
| \member{propagate} attribute to \constant{False}. |
| |
| There are more classes provided by the \module{logging} package that |
| can be customized. When a \class{Logger} instance is told to log a |
| message, it creates a \class{LogRecord} instance that is sent to any |
| number of different \class{Handler} instances. Loggers and handlers |
| can also have an attached list of filters, and each filter can cause |
| the \class{LogRecord} to be ignored or can modify the record before |
| passing it along. When they're finally output, \class{LogRecord} |
| instances are converted to text by a \class{Formatter} class. All of |
| these classes can be replaced by your own specially-written classes. |
| |
| With all of these features the \module{logging} package should provide |
| enough flexibility for even the most complicated applications. This |
| is only an incomplete overview of its features, so please see the |
| \ulink{package's reference documentation}{../lib/module-logging.html} |
| for all of the details. Reading \pep{282} will also be helpful. |
| |
| |
| \begin{seealso} |
| |
| \seepep{282}{A Logging System}{Written by Vinay Sajip and Trent Mick; |
| implemented by Vinay Sajip.} |
| |
| \end{seealso} |
| |
| |
| %====================================================================== |
| \section{PEP 285: A Boolean Type\label{section-bool}} |
| |
| A Boolean type was added to Python 2.3. Two new constants were added |
| to the \module{__builtin__} module, \constant{True} and |
| \constant{False}. (\constant{True} and |
| \constant{False} constants were added to the built-ins |
| in Python 2.2.1, but the 2.2.1 versions are simply set to integer values of |
| 1 and 0 and aren't a different type.) |
| |
| The type object for this new type is named |
| \class{bool}; the constructor for it takes any Python value and |
| converts it to \constant{True} or \constant{False}. |
| |
| \begin{verbatim} |
| >>> bool(1) |
| True |
| >>> bool(0) |
| False |
| >>> bool([]) |
| False |
| >>> bool( (1,) ) |
| True |
| \end{verbatim} |
| |
| Most of the standard library modules and built-in functions have been |
| changed to return Booleans. |
| |
| \begin{verbatim} |
| >>> obj = [] |
| >>> hasattr(obj, 'append') |
| True |
| >>> isinstance(obj, list) |
| True |
| >>> isinstance(obj, tuple) |
| False |
| \end{verbatim} |
| |
| Python's Booleans were added with the primary goal of making code |
| clearer. For example, if you're reading a function and encounter the |
| statement \code{return 1}, you might wonder whether the \code{1} |
| represents a Boolean truth value, an index, or a |
| coefficient that multiplies some other quantity. If the statement is |
| \code{return True}, however, the meaning of the return value is quite |
| clear. |
| |
| Python's Booleans were \emph{not} added for the sake of strict |
| type-checking. A very strict language such as Pascal would also |
| prevent you performing arithmetic with Booleans, and would require |
| that the expression in an \keyword{if} statement always evaluate to a |
| Boolean result. Python is not this strict and never will be, as |
| \pep{285} explicitly says. This means you can still use any |
| expression in an \keyword{if} statement, even ones that evaluate to a |
| list or tuple or some random object. The Boolean type is a |
| subclass of the \class{int} class so that arithmetic using a Boolean |
| still works. |
| |
| \begin{verbatim} |
| >>> True + 1 |
| 2 |
| >>> False + 1 |
| 1 |
| >>> False * 75 |
| 0 |
| >>> True * 75 |
| 75 |
| \end{verbatim} |
| |
| To sum up \constant{True} and \constant{False} in a sentence: they're |
| alternative ways to spell the integer values 1 and 0, with the single |
| difference that \function{str()} and \function{repr()} return the |
| strings \code{'True'} and \code{'False'} instead of \code{'1'} and |
| \code{'0'}. |
| |
| \begin{seealso} |
| |
| \seepep{285}{Adding a bool type}{Written and implemented by GvR.} |
| |
| \end{seealso} |
| |
| |
| %====================================================================== |
| \section{PEP 293: Codec Error Handling Callbacks} |
| |
| When encoding a Unicode string into a byte string, unencodable |
| characters may be encountered. So far, Python has allowed specifying |
| the error processing as either ``strict'' (raising |
| \exception{UnicodeError}), ``ignore'' (skipping the character), or |
| ``replace'' (using a question mark in the output string), with |
| ``strict'' being the default behavior. It may be desirable to specify |
| alternative processing of such errors, such as inserting an XML |
| character reference or HTML entity reference into the converted |
| string. |
| |
| Python now has a flexible framework to add different processing |
| strategies. New error handlers can be added with |
| \function{codecs.register_error}, and codecs then can access the error |
| handler with \function{codecs.lookup_error}. An equivalent C API has |
| been added for codecs written in C. The error handler gets the |
| necessary state information such as the string being converted, the |
| position in the string where the error was detected, and the target |
| encoding. The handler can then either raise an exception or return a |
| replacement string. |
| |
| Two additional error handlers have been implemented using this |
| framework: ``backslashreplace'' uses Python backslash quoting to |
| represent unencodable characters and ``xmlcharrefreplace'' emits |
| XML character references. |
| |
| \begin{seealso} |
| |
| \seepep{293}{Codec Error Handling Callbacks}{Written and implemented by |
| Walter D\"orwald.} |
| |
| \end{seealso} |
| |
| |
| %====================================================================== |
| \section{PEP 273: Importing Modules from Zip Archives} |
| |
| The new \module{zipimport} module adds support for importing |
| modules from a ZIP-format archive. You don't need to import the |
| module explicitly; it will be automatically imported if a ZIP |
| archive's filename is added to \code{sys.path}. For example: |
| |
| \begin{verbatim} |
| amk@nyman:~/src/python$ unzip -l /tmp/example.zip |
| Archive: /tmp/example.zip |
| Length Date Time Name |
| -------- ---- ---- ---- |
| 8467 11-26-02 22:30 jwzthreading.py |
| -------- ------- |
| 8467 1 file |
| amk@nyman:~/src/python$ ./python |
| Python 2.3 (#1, Aug 1 2003, 19:54:32) |
| >>> import sys |
| >>> sys.path.insert(0, '/tmp/example.zip') # Add .zip file to front of path |
| >>> import jwzthreading |
| >>> jwzthreading.__file__ |
| '/tmp/example.zip/jwzthreading.py' |
| >>> |
| \end{verbatim} |
| |
| An entry in \code{sys.path} can now be the filename of a ZIP archive. |
| The ZIP archive can contain any kind of files, but only files named |
| \file{*.py}, \file{*.pyc}, or \file{*.pyo} can be imported. If an |
| archive only contains \file{*.py} files, Python will not attempt to |
| modify the archive by adding the corresponding \file{*.pyc} file, meaning |
| that if a ZIP archive doesn't contain \file{*.pyc} files, importing may be |
| rather slow. |
| |
| A path within the archive can also be specified to only import from a |
| subdirectory; for example, the path \file{/tmp/example.zip/lib/} |
| would only import from the \file{lib/} subdirectory within the |
| archive. |
| |
| \begin{seealso} |
| |
| \seepep{273}{Import Modules from Zip Archives}{Written by James C. Ahlstrom, |
| who also provided an implementation. |
| Python 2.3 follows the specification in \pep{273}, |
| but uses an implementation written by Just van~Rossum |
| that uses the import hooks described in \pep{302}. |
| See section~\ref{section-pep302} for a description of the new import hooks. |
| } |
| |
| \end{seealso} |
| |
| %====================================================================== |
| \section{PEP 301: Package Index and Metadata for |
| Distutils\label{section-pep301}} |
| |
| Support for the long-requested Python catalog makes its first |
| appearance in 2.3. |
| |
| The heart of the catalog is the new Distutils \command{register} command. |
| Running \code{python setup.py register} will collect the metadata |
| describing a package, such as its name, version, maintainer, |
| description, \&c., and send it to a central catalog server. The |
| resulting catalog is available from \url{http://www.python.org/pypi}. |
| |
| To make the catalog a bit more useful, a new optional |
| \var{classifiers} keyword argument has been added to the Distutils |
| \function{setup()} function. A list of |
| \ulink{Trove}{http://catb.org/\textasciitilde esr/trove/}-style |
| strings can be supplied to help classify the software. |
| |
| Here's an example \file{setup.py} with classifiers, written to be compatible |
| with older versions of the Distutils: |
| |
| \begin{verbatim} |
| from distutils import core |
| kw = {'name': "Quixote", |
| 'version': "0.5.1", |
| 'description': "A highly Pythonic Web application framework", |
| # ... |
| } |
| |
| if (hasattr(core, 'setup_keywords') and |
| 'classifiers' in core.setup_keywords): |
| kw['classifiers'] = \ |
| ['Topic :: Internet :: WWW/HTTP :: Dynamic Content', |
| 'Environment :: No Input/Output (Daemon)', |
| 'Intended Audience :: Developers'], |
| |
| core.setup(**kw) |
| \end{verbatim} |
| |
| The full list of classifiers can be obtained by running |
| \code{python setup.py register --list-classifiers}. |
| |
| \begin{seealso} |
| |
| \seepep{301}{Package Index and Metadata for Distutils}{Written and |
| implemented by Richard Jones.} |
| |
| \end{seealso} |
| |
| |
| %====================================================================== |
| \section{PEP 302: New Import Hooks \label{section-pep302}} |
| |
| While it's been possible to write custom import hooks ever since the |
| \module{ihooks} module was introduced in Python 1.3, no one has ever |
| been really happy with it because writing new import hooks is |
| difficult and messy. There have been various proposed alternatives |
| such as the \module{imputil} and \module{iu} modules, but none of them |
| has ever gained much acceptance, and none of them were easily usable |
| from \C{} code. |
| |
| \pep{302} borrows ideas from its predecessors, especially from |
| Gordon McMillan's \module{iu} module. Three new items |
| are added to the \module{sys} module: |
| |
| \begin{itemize} |
| \item \code{sys.path_hooks} is a list of callable objects; most |
| often they'll be classes. Each callable takes a string containing a |
| path and either returns an importer object that will handle imports |
| from this path or raises an \exception{ImportError} exception if it |
| can't handle this path. |
| |
| \item \code{sys.path_importer_cache} caches importer objects for |
| each path, so \code{sys.path_hooks} will only need to be traversed |
| once for each path. |
| |
| \item \code{sys.meta_path} is a list of importer objects that will |
| be traversed before \code{sys.path} is checked. This list is |
| initially empty, but user code can add objects to it. Additional |
| built-in and frozen modules can be imported by an object added to |
| this list. |
| |
| \end{itemize} |
| |
| Importer objects must have a single method, |
| \method{find_module(\var{fullname}, \var{path}=None)}. \var{fullname} |
| will be a module or package name, e.g. \samp{string} or |
| \samp{distutils.core}. \method{find_module()} must return a loader object |
| that has a single method, \method{load_module(\var{fullname})}, that |
| creates and returns the corresponding module object. |
| |
| Pseudo-code for Python's new import logic, therefore, looks something |
| like this (simplified a bit; see \pep{302} for the full details): |
| |
| \begin{verbatim} |
| for mp in sys.meta_path: |
| loader = mp(fullname) |
| if loader is not None: |
| <module> = loader.load_module(fullname) |
| |
| for path in sys.path: |
| for hook in sys.path_hooks: |
| try: |
| importer = hook(path) |
| except ImportError: |
| # ImportError, so try the other path hooks |
| pass |
| else: |
| loader = importer.find_module(fullname) |
| <module> = loader.load_module(fullname) |
| |
| # Not found! |
| raise ImportError |
| \end{verbatim} |
| |
| \begin{seealso} |
| |
| \seepep{302}{New Import Hooks}{Written by Just van~Rossum and Paul Moore. |
| Implemented by Just van~Rossum. |
| } |
| |
| \end{seealso} |
| |
| |
| %====================================================================== |
| \section{PEP 305: Comma-separated Files \label{section-pep305}} |
| |
| Comma-separated files are a format frequently used for exporting data |
| from databases and spreadsheets. Python 2.3 adds a parser for |
| comma-separated files. |
| |
| Comma-separated format is deceptively simple at first glance: |
| |
| \begin{verbatim} |
| Costs,150,200,3.95 |
| \end{verbatim} |
| |
| Read a line and call \code{line.split(',')}: what could be simpler? |
| But toss in string data that can contain commas, and things get more |
| complicated: |
| |
| \begin{verbatim} |
| "Costs",150,200,3.95,"Includes taxes, shipping, and sundry items" |
| \end{verbatim} |
| |
| A big ugly regular expression can parse this, but using the new |
| \module{csv} package is much simpler: |
| |
| \begin{verbatim} |
| import csv |
| |
| input = open('datafile', 'rb') |
| reader = csv.reader(input) |
| for line in reader: |
| print line |
| \end{verbatim} |
| |
| The \function{reader} function takes a number of different options. |
| The field separator isn't limited to the comma and can be changed to |
| any character, and so can the quoting and line-ending characters. |
| |
| Different dialects of comma-separated files can be defined and |
| registered; currently there are two dialects, both used by Microsoft Excel. |
| A separate \class{csv.writer} class will generate comma-separated files |
| from a succession of tuples or lists, quoting strings that contain the |
| delimiter. |
| |
| \begin{seealso} |
| |
| \seepep{305}{CSV File API}{Written and implemented |
| by Kevin Altis, Dave Cole, Andrew McNamara, Skip Montanaro, Cliff Wells. |
| } |
| |
| \end{seealso} |
| |
| %====================================================================== |
| \section{PEP 307: Pickle Enhancements \label{section-pep305}} |
| |
| The \module{pickle} and \module{cPickle} modules received some |
| attention during the 2.3 development cycle. In 2.2, new-style classes |
| could be pickled without difficulty, but they weren't pickled very |
| compactly; \pep{307} quotes a trivial example where a new-style class |
| results in a pickled string three times longer than that for a classic |
| class. |
| |
| The solution was to invent a new pickle protocol. The |
| \function{pickle.dumps()} function has supported a text-or-binary flag |
| for a long time. In 2.3, this flag is redefined from a Boolean to an |
| integer: 0 is the old text-mode pickle format, 1 is the old binary |
| format, and now 2 is a new 2.3-specific format. A new constant, |
| \constant{pickle.HIGHEST_PROTOCOL}, can be used to select the fanciest |
| protocol available. |
| |
| Unpickling is no longer considered a safe operation. 2.2's |
| \module{pickle} provided hooks for trying to prevent unsafe classes |
| from being unpickled (specifically, a |
| \member{__safe_for_unpickling__} attribute), but none of this code |
| was ever audited and therefore it's all been ripped out in 2.3. You |
| should not unpickle untrusted data in any version of Python. |
| |
| To reduce the pickling overhead for new-style classes, a new interface |
| for customizing pickling was added using three special methods: |
| \method{__getstate__}, \method{__setstate__}, and |
| \method{__getnewargs__}. Consult \pep{307} for the full semantics |
| of these methods. |
| |
| As a way to compress pickles yet further, it's now possible to use |
| integer codes instead of long strings to identify pickled classes. |
| The Python Software Foundation will maintain a list of standardized |
| codes; there's also a range of codes for private use. Currently no |
| codes have been specified. |
| |
| \begin{seealso} |
| |
| \seepep{307}{Extensions to the pickle protocol}{Written and implemented |
| by Guido van Rossum and Tim Peters.} |
| |
| \end{seealso} |
| |
| %====================================================================== |
| \section{Extended Slices\label{section-slices}} |
| |
| Ever since Python 1.4, the slicing syntax has supported an optional |
| third ``step'' or ``stride'' argument. For example, these are all |
| legal Python syntax: \code{L[1:10:2]}, \code{L[:-1:1]}, |
| \code{L[::-1]}. This was added to Python at the request of |
| the developers of Numerical Python, which uses the third argument |
| extensively. However, Python's built-in list, tuple, and string |
| sequence types have never supported this feature, raising a |
| \exception{TypeError} if you tried it. Michael Hudson contributed a |
| patch to fix this shortcoming. |
| |
| For example, you can now easily extract the elements of a list that |
| have even indexes: |
| |
| \begin{verbatim} |
| >>> L = range(10) |
| >>> L[::2] |
| [0, 2, 4, 6, 8] |
| \end{verbatim} |
| |
| Negative values also work to make a copy of the same list in reverse |
| order: |
| |
| \begin{verbatim} |
| >>> L[::-1] |
| [9, 8, 7, 6, 5, 4, 3, 2, 1, 0] |
| \end{verbatim} |
| |
| This also works for tuples, arrays, and strings: |
| |
| \begin{verbatim} |
| >>> s='abcd' |
| >>> s[::2] |
| 'ac' |
| >>> s[::-1] |
| 'dcba' |
| \end{verbatim} |
| |
| If you have a mutable sequence such as a list or an array you can |
| assign to or delete an extended slice, but there are some differences |
| between assignment to extended and regular slices. Assignment to a |
| regular slice can be used to change the length of the sequence: |
| |
| \begin{verbatim} |
| >>> a = range(3) |
| >>> a |
| [0, 1, 2] |
| >>> a[1:3] = [4, 5, 6] |
| >>> a |
| [0, 4, 5, 6] |
| \end{verbatim} |
| |
| Extended slices aren't this flexible. When assigning to an extended |
| slice, the list on the right hand side of the statement must contain |
| the same number of items as the slice it is replacing: |
| |
| \begin{verbatim} |
| >>> a = range(4) |
| >>> a |
| [0, 1, 2, 3] |
| >>> a[::2] |
| [0, 2] |
| >>> a[::2] = [0, -1] |
| >>> a |
| [0, 1, -1, 3] |
| >>> a[::2] = [0,1,2] |
| Traceback (most recent call last): |
| File "<stdin>", line 1, in ? |
| ValueError: attempt to assign sequence of size 3 to extended slice of size 2 |
| \end{verbatim} |
| |
| Deletion is more straightforward: |
| |
| \begin{verbatim} |
| >>> a = range(4) |
| >>> a |
| [0, 1, 2, 3] |
| >>> a[::2] |
| [0, 2] |
| >>> del a[::2] |
| >>> a |
| [1, 3] |
| \end{verbatim} |
| |
| One can also now pass slice objects to the |
| \method{__getitem__} methods of the built-in sequences: |
| |
| \begin{verbatim} |
| >>> range(10).__getitem__(slice(0, 5, 2)) |
| [0, 2, 4] |
| \end{verbatim} |
| |
| Or use slice objects directly in subscripts: |
| |
| \begin{verbatim} |
| >>> range(10)[slice(0, 5, 2)] |
| [0, 2, 4] |
| \end{verbatim} |
| |
| To simplify implementing sequences that support extended slicing, |
| slice objects now have a method \method{indices(\var{length})} which, |
| given the length of a sequence, returns a \code{(\var{start}, |
| \var{stop}, \var{step})} tuple that can be passed directly to |
| \function{range()}. |
| \method{indices()} handles omitted and out-of-bounds indices in a |
| manner consistent with regular slices (and this innocuous phrase hides |
| a welter of confusing details!). The method is intended to be used |
| like this: |
| |
| \begin{verbatim} |
| class FakeSeq: |
| ... |
| def calc_item(self, i): |
| ... |
| def __getitem__(self, item): |
| if isinstance(item, slice): |
| indices = item.indices(len(self)) |
| return FakeSeq([self.calc_item(i) in range(*indices)]) |
| else: |
| return self.calc_item(i) |
| \end{verbatim} |
| |
| From this example you can also see that the built-in \class{slice} |
| object is now the type object for the slice type, and is no longer a |
| function. This is consistent with Python 2.2, where \class{int}, |
| \class{str}, etc., underwent the same change. |
| |
| |
| %====================================================================== |
| \section{Other Language Changes} |
| |
| Here are all of the changes that Python 2.3 makes to the core Python |
| language. |
| |
| \begin{itemize} |
| \item The \keyword{yield} statement is now always a keyword, as |
| described in section~\ref{section-generators} of this document. |
| |
| \item A new built-in function \function{enumerate()} |
| was added, as described in section~\ref{section-enumerate} of this |
| document. |
| |
| \item Two new constants, \constant{True} and \constant{False} were |
| added along with the built-in \class{bool} type, as described in |
| section~\ref{section-bool} of this document. |
| |
| \item The \function{int()} type constructor will now return a long |
| integer instead of raising an \exception{OverflowError} when a string |
| or floating-point number is too large to fit into an integer. This |
| can lead to the paradoxical result that |
| \code{isinstance(int(\var{expression}), int)} is false, but that seems |
| unlikely to cause problems in practice. |
| |
| \item Built-in types now support the extended slicing syntax, |
| as described in section~\ref{section-slices} of this document. |
| |
| \item A new built-in function, \function{sum(\var{iterable}, \var{start}=0)}, |
| adds up the numeric items in the iterable object and returns their sum. |
| \function{sum()} only accepts numbers, meaning that you can't use it |
| to concatenate a bunch of strings. (Contributed by Alex |
| Martelli.) |
| |
| \item \code{list.insert(\var{pos}, \var{value})} used to |
| insert \var{value} at the front of the list when \var{pos} was |
| negative. The behaviour has now been changed to be consistent with |
| slice indexing, so when \var{pos} is -1 the value will be inserted |
| before the last element, and so forth. |
| |
| \item \code{list.index(\var{value})}, which searches for \var{value} |
| within the list and returns its index, now takes optional |
| \var{start} and \var{stop} arguments to limit the search to |
| only part of the list. |
| |
| \item Dictionaries have a new method, \method{pop(\var{key}\optional{, |
| \var{default}})}, that returns the value corresponding to \var{key} |
| and removes that key/value pair from the dictionary. If the requested |
| key isn't present in the dictionary, \var{default} is returned if it's |
| specified and \exception{KeyError} raised if it isn't. |
| |
| \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} |
| |
| There's also a new class method, |
| \method{dict.fromkeys(\var{iterable}, \var{value})}, that |
| creates a dictionary with keys taken from the supplied iterator |
| \var{iterable} and all values set to \var{value}, defaulting to |
| \code{None}. |
| |
| (Patches contributed by Raymond Hettinger.) |
| |
| Also, the \function{dict()} constructor now accepts keyword arguments to |
| simplify creating small dictionaries: |
| |
| \begin{verbatim} |
| >>> dict(red=1, blue=2, green=3, black=4) |
| {'blue': 2, 'black': 4, 'green': 3, 'red': 1} |
| \end{verbatim} |
| |
| (Contributed by Just van~Rossum.) |
| |
| \item The \keyword{assert} statement no longer checks the \code{__debug__} |
| flag, so you can no longer disable assertions by assigning to \code{__debug__}. |
| Running Python with the \programopt{-O} switch will still generate |
| code that doesn't execute any assertions. |
| |
| \item Most type objects are now callable, so you can use them |
| to create new objects such as functions, classes, and modules. (This |
| means that the \module{new} module can be deprecated in a future |
| Python version, because you can now use the type objects available in |
| the \module{types} module.) |
| % XXX should new.py use PendingDeprecationWarning? |
| For example, you can create a new module object with the following code: |
| |
| \begin{verbatim} |
| >>> import types |
| >>> m = types.ModuleType('abc','docstring') |
| >>> m |
| <module 'abc' (built-in)> |
| >>> m.__doc__ |
| 'docstring' |
| \end{verbatim} |
| |
| \item |
| A new warning, \exception{PendingDeprecationWarning} was added to |
| indicate features which are in the process of being |
| deprecated. The warning will \emph{not} be printed by default. To |
| check for use of features that will be deprecated in the future, |
| supply \programopt{-Walways::PendingDeprecationWarning::} on the |
| command line or use \function{warnings.filterwarnings()}. |
| |
| \item The process of deprecating string-based exceptions, as |
| in \code{raise "Error occurred"}, has begun. Raising a string will |
| now trigger \exception{PendingDeprecationWarning}. |
| |
| \item Using \code{None} as a variable name will now result in a |
| \exception{SyntaxWarning} warning. In a future version of Python, |
| \code{None} may finally become a keyword. |
| |
| \item The method resolution order used by new-style classes has |
| changed, though you'll only notice the difference if you have a really |
| complicated inheritance hierarchy. Classic classes are unaffected by |
| this change. Python 2.2 originally used a topological sort of a |
| class's ancestors, but 2.3 now uses the C3 algorithm as described in |
| the paper \ulink{``A Monotonic Superclass Linearization for |
| Dylan''}{http://www.webcom.com/haahr/dylan/linearization-oopsla96.html}. |
| To understand the motivation for this change, |
| read Michele Simionato's article |
| \ulink{``Python 2.3 Method Resolution Order''} |
| {http://www.python.org/2.3/mro.html}, or |
| read the thread on python-dev starting with the message at |
| \url{http://mail.python.org/pipermail/python-dev/2002-October/029035.html}. |
| Samuele Pedroni first pointed out the problem and also implemented the |
| fix by coding the C3 algorithm. |
| |
| \item Python runs multithreaded programs by switching between threads |
| after executing N bytecodes. The default value for N has been |
| increased from 10 to 100 bytecodes, speeding up single-threaded |
| applications by reducing the switching overhead. Some multithreaded |
| applications may suffer slower response time, but that's easily fixed |
| by setting the limit back to a lower number using |
| \function{sys.setcheckinterval(\var{N})}. |
| The limit can be retrieved with the new |
| \function{sys.getcheckinterval()} function. |
| |
| \item One minor but far-reaching change is that the names of extension |
| types defined by the modules included with Python now contain the |
| module and a \character{.} in front of the type name. For example, in |
| Python 2.2, if you created a socket and printed its |
| \member{__class__}, you'd get this output: |
| |
| \begin{verbatim} |
| >>> s = socket.socket() |
| >>> s.__class__ |
| <type 'socket'> |
| \end{verbatim} |
| |
| In 2.3, you get this: |
| \begin{verbatim} |
| >>> s.__class__ |
| <type '_socket.socket'> |
| \end{verbatim} |
| |
| \item One of the noted incompatibilities between old- and new-style |
| classes has been removed: you can now assign to the |
| \member{__name__} and \member{__bases__} attributes of new-style |
| classes. There are some restrictions on what can be assigned to |
| \member{__bases__} along the lines of those relating to assigning to |
| an instance's \member{__class__} attribute. |
| |
| \end{itemize} |
| |
| |
| %====================================================================== |
| \subsection{String Changes} |
| |
| \begin{itemize} |
| |
| \item The \keyword{in} operator now works differently for strings. |
| Previously, when evaluating \code{\var{X} in \var{Y}} where \var{X} |
| and \var{Y} are strings, \var{X} could only be a single character. |
| That's now changed; \var{X} can be a string of any length, and |
| \code{\var{X} in \var{Y}} will return \constant{True} if \var{X} is a |
| substring of \var{Y}. If \var{X} is the empty string, the result is |
| always \constant{True}. |
| |
| \begin{verbatim} |
| >>> 'ab' in 'abcd' |
| True |
| >>> 'ad' in 'abcd' |
| False |
| >>> '' in 'abcd' |
| True |
| \end{verbatim} |
| |
| Note that this doesn't tell you where the substring starts; if you |
| need that information, use the \method{find()} string method. |
| |
| \item The \method{strip()}, \method{lstrip()}, and \method{rstrip()} |
| 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} |
| |
| (Suggested by Simon Brunning and implemented by Walter D\"orwald.) |
| |
| \item The \method{startswith()} and \method{endswith()} |
| string methods now accept negative numbers for the 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} |
| |
| (Contributed by Walter D\"orwald.) |
| |
| \item A new type object, \class{basestring}, has been added. |
| Both 8-bit strings and Unicode strings inherit from this type, so |
| \code{isinstance(obj, basestring)} will return \constant{True} for |
| either kind of string. It's a completely abstract type, so you |
| can't create \class{basestring} instances. |
| |
| \item Interned strings are no longer immortal, and will now be |
| garbage-collected in the usual way when the only reference to them is |
| from the internal dictionary of interned strings. (Implemented by |
| Oren Tirosh.) |
| |
| \end{itemize} |
| |
| |
| %====================================================================== |
| \subsection{Optimizations} |
| |
| \begin{itemize} |
| |
| \item The creation of new-style class instances has been made much |
| faster; they're now faster than classic classes! |
| |
| \item The \method{sort()} method of list objects has been extensively |
| rewritten by Tim Peters, and the implementation is significantly |
| faster. |
| |
| \item Multiplication of large long integers is now much faster thanks |
| to an implementation of Karatsuba multiplication, an algorithm that |
| scales better than the O(n*n) required for the grade-school |
| multiplication algorithm. (Original patch by Christopher A. Craig, |
| and significantly reworked by Tim Peters.) |
| |
| \item The \code{SET_LINENO} opcode is now gone. This may provide a |
| small speed increase, depending on your compiler's idiosyncrasies. |
| See section~\ref{section-other} for a longer explanation. |
| (Removed by Michael Hudson.) |
| |
| \item \function{xrange()} objects now have their own iterator, making |
| \code{for i in xrange(n)} slightly faster than |
| \code{for i in range(n)}. (Patch by Raymond Hettinger.) |
| |
| \item A number of small rearrangements have been made in various |
| hotspots to improve performance, inlining a function here, removing |
| some code there. (Implemented mostly by GvR, but lots of people have |
| contributed single changes.) |
| |
| \end{itemize} |
| |
| |
| %====================================================================== |
| \section{New, Improved, and Deprecated Modules} |
| |
| As usual, Python's standard library received a number of enhancements and |
| bug fixes. Here's a partial list of the most notable changes, sorted |
| alphabetically by module name. Consult the |
| \file{Misc/NEWS} file in the source tree for a more |
| complete list of changes, or look through the CVS logs for all the |
| details. |
| |
| \begin{itemize} |
| |
| \item The \module{array} module now supports arrays of Unicode |
| characters using the \character{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{bsddb} module has been replaced by version 4.1.1 |
| of the \ulink{PyBSDDB}{http://pybsddb.sourceforge.net} package, |
| providing a more complete interface to the transactional features of |
| the BerkeleyDB library. |
| The old version of the module has been renamed to |
| \module{bsddb185} and is no longer built automatically; you'll |
| have to edit \file{Modules/Setup} to enable it. Note that the new |
| \module{bsddb} package is intended to be compatible with the |
| old module, so be sure to file bugs if you discover any |
| incompatibilities. When upgrading to Python 2.3, if you also change |
| the underlying BerkeleyDB library, you will almost certainly have to |
| convert your database files to the new version. You can do this |
| fairly easily with the new scripts \file{db2pickle.py} and |
| \file{pickle2db.py} which you will find in the distribution's |
| Tools/scripts directory. If you've already been using the PyBSDDB |
| package and importing it as \module{bsddb3}, you will have to change your |
| \code{import} statements. |
| |
| \item The new \module{bz2} module is an interface to the bz2 data |
| compression library. bz2 usually produces output that's smaller than |
| the compressed output from the \module{zlib} module, meaning that it |
| compresses data more highly. (Contributed by Gustavo Niemeyer.) |
| |
| \item The Distutils \class{Extension} class now supports |
| an extra constructor argument named \var{depends} for listing |
| additional source files that an extension depends on. This lets |
| Distutils recompile the module if any of the dependency files are |
| modified. For example, if \file{sampmodule.c} includes the header |
| file \file{sample.h}, you would create the \class{Extension} object like |
| this: |
| |
| \begin{verbatim} |
| ext = Extension("samp", |
| sources=["sampmodule.c"], |
| depends=["sample.h"]) |
| \end{verbatim} |
| |
| Modifying \file{sample.h} would then cause the module to be recompiled. |
| (Contributed by Jeremy Hylton.) |
| |
| \item Other minor changes to Distutils: |
| it now checks for the \envvar{CC}, \envvar{CFLAGS}, \envvar{CPP}, |
| \envvar{LDFLAGS}, and \envvar{CPPFLAGS} environment variables, using |
| them to override the settings in Python's configuration (contributed |
| by Robert Weber). |
| |
| \item The new \function{gc.get_referents(\var{object})} function returns a |
| list of all the objects referenced by \var{object}. |
| |
| \item The \module{getopt} module gained a new function, |
| \function{gnu_getopt()}, that supports the same arguments as the existing |
| \function{getopt()} function but uses GNU-style scanning mode. |
| The existing \function{getopt()} stops processing options as soon as a |
| non-option argument is encountered, but in GNU-style mode processing |
| continues, meaning that options and arguments can be mixed. For |
| example: |
| |
| \begin{verbatim} |
| >>> getopt.getopt(['-f', 'filename', 'output', '-v'], 'f:v') |
| ([('-f', 'filename')], ['output', '-v']) |
| >>> getopt.gnu_getopt(['-f', 'filename', 'output', '-v'], 'f:v') |
| ([('-f', 'filename'), ('-v', '')], ['output']) |
| \end{verbatim} |
| |
| (Contributed by Peter \AA{strand}.) |
| |
| \item The \module{grp}, \module{pwd}, and \module{resource} modules |
| now return enhanced tuples: |
| |
| \begin{verbatim} |
| >>> import grp |
| >>> g = grp.getgrnam('amk') |
| >>> g.gr_name, g.gr_gid |
| ('amk', 500) |
| \end{verbatim} |
| |
| \item The \module{gzip} module can now handle files exceeding 2~Gb. |
| |
| \item The new \module{heapq} module contains an implementation of a |
| heap queue algorithm. A heap is an array-like data structure that |
| keeps items in a partially sorted order such that, for every index |
| \var{k}, \code{heap[\var{k}] <= heap[2*\var{k}+1]} and |
| \code{heap[\var{k}] <= heap[2*\var{k}+2]}. This makes it quick to |
| remove the smallest item, and inserting a new item while maintaining |
| the heap property is O(lg~n). (See |
| \url{http://www.nist.gov/dads/HTML/priorityque.html} for more |
| information about the priority queue data structure.) |
| |
| The \module{heapq} module provides \function{heappush()} and |
| \function{heappop()} functions for adding and removing items while |
| maintaining the heap property on top of some other mutable Python |
| sequence type. For example: |
| |
| \begin{verbatim} |
| >>> import heapq |
| >>> heap = [] |
| >>> for item in [3, 7, 5, 11, 1]: |
| ... heapq.heappush(heap, item) |
| ... |
| >>> heap |
| [1, 3, 5, 11, 7] |
| >>> heapq.heappop(heap) |
| 1 |
| >>> heapq.heappop(heap) |
| 3 |
| >>> heap |
| [5, 7, 11] |
| \end{verbatim} |
| |
| (Contributed by Kevin O'Connor.) |
| |
| \item The \module{imaplib} module now supports IMAP over SSL. |
| (Contributed by Piers Lauder and Tino Lange.) |
| |
| \item The \module{itertools} contains a number of useful functions for |
| use with iterators, inspired by various functions provided by the ML |
| and Haskell languages. For example, |
| \code{itertools.ifilter(predicate, iterator)} returns all elements in |
| the iterator for which the function \function{predicate()} returns |
| \constant{True}, and \code{itertools.repeat(obj, \var{N})} returns |
| \code{obj} \var{N} times. There are a number of other functions in |
| the module; see the \ulink{package's reference |
| documentation}{../lib/module-itertools.html} for details. |
| (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. Also, an optional \var{base} argument was added to |
| \function{math.log()} to make it easier to compute logarithms for |
| bases other than \code{e} and \code{10}. (Contributed by Raymond |
| Hettinger.) |
| |
| \item Several new functions (\function{getpgid()}, \function{killpg()}, |
| \function{lchown()}, \function{loadavg()}, \function{major()}, \function{makedev()}, |
| \function{minor()}, and \function{mknod()}) were added to the |
| \module{posix} module that underlies the \module{os} module. |
| (Contributed by Gustavo Niemeyer, Geert Jansen, and Denis S. Otkidach.) |
| |
| \item In the \module{os} module, the \function{*stat()} family of functions can now report |
| fractions of a second in a timestamp. Such time stamps are |
| represented as floats, similar to \function{time.time()}. |
| |
| During testing, it was found that some applications will break if time |
| stamps are floats. For compatibility, when using the tuple interface |
| of the \class{stat_result} time stamps will be represented as integers. |
| When using named fields (a feature first introduced in Python 2.2), |
| time stamps are still represented as integers, unless |
| \function{os.stat_float_times()} is invoked to enable float return |
| values: |
| |
| \begin{verbatim} |
| >>> os.stat("/tmp").st_mtime |
| 1034791200 |
| >>> os.stat_float_times(True) |
| >>> os.stat("/tmp").st_mtime |
| 1034791200.6335014 |
| \end{verbatim} |
| |
| In Python 2.4, the default will change to always returning floats. |
| |
| Application developers should enable this feature only if all their |
| libraries work properly when confronted with floating point time |
| stamps, or if they use the tuple API. If used, the feature should be |
| activated on an application level instead of trying to enable it on a |
| per-use basis. |
| |
| \item The old and never-documented \module{linuxaudiodev} module has |
| been deprecated, and a new version named \module{ossaudiodev} has been |
| added. The module was renamed because the OSS sound drivers can be |
| used on platforms other than Linux, and the interface has also been |
| tidied and brought up to date in various ways. (Contributed by Greg |
| Ward and Nicholas FitzRoy-Dale.) |
| |
| \item The new \module{platform} module contains a number of functions |
| that try to determine various properties of the platform you're |
| running on. There are functions for getting the architecture, CPU |
| type, the Windows OS version, and even the Linux distribution version. |
| (Contributed by Marc-Andr\'e Lemburg.) |
| |
| \item The parser objects provided by the \module{pyexpat} module |
| can now optionally buffer character data, resulting in fewer calls to |
| your character data handler and therefore faster performance. Setting |
| the parser object's \member{buffer_text} attribute to \constant{True} |
| will enable buffering. |
| |
| \item The \function{sample(\var{population}, \var{k})} function was |
| added to the \module{random} module. \var{population} is a sequence |
| or \class{xrange} object containing the elements of a population, and |
| \function{sample()} |
| chooses \var{k} elements from the population without replacing chosen |
| elements. \var{k} can be any value up to \code{len(\var{population})}. |
| For example: |
| |
| \begin{verbatim} |
| >>> days = ['Mo', 'Tu', 'We', 'Th', 'Fr', 'St', 'Sn'] |
| >>> random.sample(days, 3) # Choose 3 elements |
| ['St', 'Sn', 'Th'] |
| >>> random.sample(days, 7) # Choose 7 elements |
| ['Tu', 'Th', 'Mo', 'We', 'St', 'Fr', 'Sn'] |
| >>> random.sample(days, 7) # Choose 7 again |
| ['We', 'Mo', 'Sn', 'Fr', 'Tu', 'St', 'Th'] |
| >>> random.sample(days, 8) # Can't choose eight |
| Traceback (most recent call last): |
| File "<stdin>", line 1, in ? |
| File "random.py", line 414, in sample |
| raise ValueError, "sample larger than population" |
| ValueError: sample larger than population |
| >>> random.sample(xrange(1,10000,2), 10) # Choose ten odd nos. under 10000 |
| [3407, 3805, 1505, 7023, 2401, 2267, 9733, 3151, 8083, 9195] |
| \end{verbatim} |
| |
| The \module{random} module now uses a new algorithm, the Mersenne |
| Twister, implemented in C. It's faster and more extensively studied |
| than the previous algorithm. |
| |
| (All changes contributed by Raymond Hettinger.) |
| |
| \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 The \module{rexec} and \module{Bastion} modules have been |
| declared dead, and attempts to import them will fail with a |
| \exception{RuntimeError}. New-style classes provide new ways to break |
| out of the restricted execution environment provided by |
| \module{rexec}, and no one has interest in fixing them or time to do |
| so. If you have applications using \module{rexec}, rewrite them to |
| use something else. |
| |
| (Sticking with Python 2.2 or 2.1 will not make your applications any |
| safer because there are known bugs in the \module{rexec} module in |
| those versions. To repeat: if you're using \module{rexec}, stop using |
| it immediately.) |
| |
| \item The \module{rotor} module has been deprecated because the |
| algorithm it uses for encryption is not believed to be secure. If |
| you need encryption, use one of the several AES Python modules |
| that are available separately. |
| |
| \item The \module{shutil} module gained a \function{move(\var{src}, |
| \var{dest})} function that recursively moves a file or directory to a new |
| location. |
| |
| \item Support for more advanced POSIX signal handling was added |
| to the \module{signal} but then removed again as it proved impossible |
| to make it work reliably across platforms. |
| |
| \item The \module{socket} module now supports timeouts. You |
| can call the \method{settimeout(\var{t})} method on a socket object to |
| set a timeout of \var{t} seconds. Subsequent socket operations that |
| take longer than \var{t} seconds to complete will abort and raise a |
| \exception{socket.timeout} exception. |
| |
| The original timeout implementation was by Tim O'Malley. Michael |
| Gilfix integrated it into the Python \module{socket} module and |
| shepherded it through a lengthy review. After the code was checked |
| in, Guido van~Rossum rewrote parts of it. (This is a good example of |
| a collaborative development process in action.) |
| |
| \item On Windows, the \module{socket} module now ships with Secure |
| Sockets Layer (SSL) support. |
| |
| \item The value of the C \constant{PYTHON_API_VERSION} macro is now |
| exposed at the Python level as \code{sys.api_version}. The current |
| exception can be cleared by calling the new \function{sys.exc_clear()} |
| function. |
| |
| \item The new \module{tarfile} module |
| allows reading from and writing to \program{tar}-format archive files. |
| (Contributed by Lars Gust\"abel.) |
| |
| \item The new \module{textwrap} module contains functions for wrapping |
| strings containing paragraphs of text. The \function{wrap(\var{text}, |
| \var{width})} function takes a string and returns a list containing |
| the text split into lines of no more than the chosen width. The |
| \function{fill(\var{text}, \var{width})} function returns a single |
| string, reformatted to fit into lines no longer than the chosen width. |
| (As you can guess, \function{fill()} is built on top of |
| \function{wrap()}. For example: |
| |
| \begin{verbatim} |
| >>> import textwrap |
| >>> paragraph = "Not a whit, we defy augury: ... more text ..." |
| >>> textwrap.wrap(paragraph, 60) |
| ["Not a whit, we defy augury: there's a special providence in", |
| "the fall of a sparrow. If it be now, 'tis not to come; if it", |
| ...] |
| >>> print textwrap.fill(paragraph, 35) |
| Not a whit, we defy augury: there's |
| a special providence in the fall of |
| a sparrow. If it be now, 'tis not |
| to come; if it be not to come, it |
| will be now; if it be not now, yet |
| it will come: the readiness is all. |
| >>> |
| \end{verbatim} |
| |
| The module also contains a \class{TextWrapper} class that actually |
| implements the text wrapping strategy. Both the |
| \class{TextWrapper} class and the \function{wrap()} and |
| \function{fill()} functions support a number of additional keyword |
| arguments for fine-tuning the formatting; consult the \ulink{module's |
| documentation}{../lib/module-textwrap.html} for details. |
| (Contributed by Greg Ward.) |
| |
| \item The \module{thread} and \module{threading} modules now have |
| companion modules, \module{dummy_thread} and \module{dummy_threading}, |
| that provide a do-nothing implementation of the \module{thread} |
| module's interface for platforms where threads are not supported. The |
| intention is to simplify thread-aware modules (ones that \emph{don't} |
| rely on threads to run) by putting the following code at the top: |
| |
| \begin{verbatim} |
| try: |
| import threading as _threading |
| except ImportError: |
| import dummy_threading as _threading |
| \end{verbatim} |
| |
| Code can then call functions and use classes in \module{_threading} |
| whether or not threads are supported, avoiding an \keyword{if} |
| statement and making the code slightly clearer. This module will not |
| magically make multithreaded code run without threads; code that waits |
| for another thread to return or to do something will simply hang |
| forever. (In this example, \module{_threading} is used as the module |
| name to make it clear that the module being used is not necessarily |
| the actual \module{threading} module.) |
| |
| \item The \module{time} module's \function{strptime()} function has |
| long been an annoyance because it uses the platform C library's |
| \function{strptime()} implementation, and different platforms |
| sometimes have odd bugs. Brett Cannon contributed a portable |
| implementation that's written in pure Python and should behave |
| identically on all platforms. |
| |
| \item The new \module{timeit} module helps measure how long snippets |
| of Python code take to execute. The \file{timeit.py} file can be run |
| directly from the command line, or the module's \class{Timer} class |
| can be imported and used directly. Here's a short example that |
| figures out whether it's faster to convert an 8-bit string to Unicode |
| by appending an empty Unicode string to it or by using the |
| \function{unicode()} function: |
| |
| \begin{verbatim} |
| import timeit |
| |
| timer1 = timeit.Timer('unicode("abc")') |
| timer2 = timeit.Timer('"abc" + u""') |
| |
| # Run three trials |
| print timer1.repeat(repeat=3, number=100000) |
| print timer2.repeat(repeat=3, number=100000) |
| |
| # On my laptop this outputs: |
| # [0.36831796169281006, 0.37441694736480713, 0.35304892063140869] |
| # [0.17574405670166016, 0.18193507194519043, 0.17565798759460449] |
| \end{verbatim} |
| |
| |
| \item The \module{UserDict} module has a new \class{DictMixin} class which |
| defines all dictionary methods for classes that already have a minimum |
| mapping interface. This greatly simplifies writing classes that need |
| to be substitutable for dictionaries, such as the classes in |
| the \module{shelve} module. |
| |
| Adding the mixin as a superclass provides the full dictionary |
| interface whenever the class defines \method{__getitem__}, |
| \method{__setitem__}, \method{__delitem__}, and \method{keys}. |
| For example: |
| |
| \begin{verbatim} |
| >>> import UserDict |
| >>> class SeqDict(UserDict.DictMixin): |
| """Dictionary lookalike implemented with lists.""" |
| def __init__(self): |
| self.keylist = [] |
| self.valuelist = [] |
| def __getitem__(self, key): |
| try: |
| i = self.keylist.index(key) |
| except ValueError: |
| raise KeyError |
| return self.valuelist[i] |
| def __setitem__(self, key, value): |
| try: |
| i = self.keylist.index(key) |
| self.valuelist[i] = value |
| except ValueError: |
| self.keylist.append(key) |
| self.valuelist.append(value) |
| def __delitem__(self, key): |
| try: |
| i = self.keylist.index(key) |
| except ValueError: |
| raise KeyError |
| self.keylist.pop(i) |
| self.valuelist.pop(i) |
| def keys(self): |
| return list(self.keylist) |
| |
| >>> s = SeqDict() |
| >>> dir(s) # See that other dictionary methods are implemented |
| ['__cmp__', '__contains__', '__delitem__', '__doc__', '__getitem__', |
| '__init__', '__iter__', '__len__', '__module__', '__repr__', |
| '__setitem__', 'clear', 'get', 'has_key', 'items', 'iteritems', |
| 'iterkeys', 'itervalues', 'keylist', 'keys', 'pop', 'popitem', |
| 'setdefault', 'update', 'valuelist', 'values'] |
| \end{verbatim} |
| |
| (Contributed by Raymond Hettinger.) |
| |
| \item The \module{Tix} module has received various bug fixes and |
| updates for the current version of the Tix package. |
| |
| \item The \module{Tkinter} module now works with a thread-enabled |
| version of Tcl. Tcl's threading model requires that widgets only be |
| accessed from the thread in which they're created; accesses from |
| another thread can cause Tcl to panic. For certain Tcl interfaces, |
| \module{Tkinter} will now automatically avoid this |
| when a widget is accessed from a different thread by marshalling a |
| command, passing it to the correct thread, and waiting for the |
| results. Other interfaces can't be handled automatically but |
| \module{Tkinter} will now raise an exception on such an access so that |
| at least you can find out about the problem. See |
| \url{http://mail.python.org/pipermail/python-dev/2002-December/031107.html} % |
| for a more detailed explanation of this change. (Implemented by |
| Martin von~L\"owis.) |
| |
| \item Calling Tcl methods through \module{_tkinter} no longer |
| returns only strings. Instead, if Tcl returns other objects those |
| objects are converted to their Python equivalent, if one exists, or |
| wrapped with a \class{_tkinter.Tcl_Obj} object if no Python equivalent |
| exists. This behavior can be controlled through the |
| \method{wantobjects()} method of \class{tkapp} objects. |
| |
| When using \module{_tkinter} through the \module{Tkinter} module (as |
| most Tkinter applications will), this feature is always activated. It |
| should not cause compatibility problems, since Tkinter would always |
| convert string results to Python types where possible. |
| |
| If any incompatibilities are found, the old behavior can be restored |
| by setting the \member{wantobjects} variable in the \module{Tkinter} |
| module to false before creating the first \class{tkapp} object. |
| |
| \begin{verbatim} |
| import Tkinter |
| Tkinter.wantobjects = 0 |
| \end{verbatim} |
| |
| Any breakage caused by this change should be reported as a bug. |
| |
| \item The DOM implementation |
| in \module{xml.dom.minidom} can now generate XML output in a |
| particular encoding by providing an optional encoding argument to |
| the \method{toxml()} and \method{toprettyxml()} methods of DOM nodes. |
| |
| \item The new \module{DocXMLRPCServer} module allows writing |
| self-documenting XML-RPC servers. Run it in demo mode (as a program) |
| to see it in action. Pointing the Web browser to the RPC server |
| produces pydoc-style documentation; pointing xmlrpclib to the |
| server allows invoking the actual methods. |
| (Contributed by Brian Quinlan.) |
| |
| \item Support for internationalized domain names (RFCs 3454, 3490, |
| 3491, and 3492) has been added. The ``idna'' encoding can be used |
| to convert between a Unicode domain name and the ASCII-compatible |
| encoding (ACE) of that name. |
| |
| \begin{alltt} |
| >{}>{}> u"www.Alliancefran\c caise.nu".encode("idna") |
| 'www.xn--alliancefranaise-npb.nu' |
| \end{alltt} |
| |
| The \module{socket} module has also been extended to transparently |
| convert Unicode hostnames to the ACE version before passing them to |
| the C library. Modules that deal with hostnames such as |
| \module{httplib} and \module{ftplib}) also support Unicode host names; |
| \module{httplib} also sends HTTP \samp{Host} headers using the ACE |
| version of the domain name. \module{urllib} supports Unicode URLs |
| with non-ASCII host names as long as the \code{path} part of the URL |
| is ASCII only. |
| |
| To implement this change, the module \module{stringprep}, the tool |
| \code{mkstringprep} and the \code{punycode} encoding have been added. |
| |
| \end{itemize} |
| |
| |
| %====================================================================== |
| \subsection{Date/Time Type} |
| |
| Date and time types suitable for expressing timestamps were added as |
| the \module{datetime} module. The types don't support different |
| calendars or many fancy features, and just stick to the basics of |
| representing time. |
| |
| The three primary types are: \class{date}, representing a day, month, |
| and year; \class{time}, consisting of hour, minute, and second; and |
| \class{datetime}, which contains all the attributes of both |
| \class{date} and \class{time}. There's also a |
| \class{timedelta} class representing differences between two points |
| in time, and time zone logic is implemented by classes inheriting from |
| the abstract \class{tzinfo} class. |
| |
| You can create instances of \class{date} and \class{time} by either |
| supplying keyword arguments to the appropriate constructor, |
| e.g. \code{datetime.date(year=1972, month=10, day=15)}, or by using |
| one of a number of class methods. For example, the \method{date.today()} |
| class method returns the current local date. |
| |
| Once created, instances of the date/time classes are all immutable. |
| There are a number of methods for producing formatted strings from |
| objects: |
| |
| \begin{verbatim} |
| >>> import datetime |
| >>> now = datetime.datetime.now() |
| >>> now.isoformat() |
| '2002-12-30T21:27:03.994956' |
| >>> now.ctime() # Only available on date, datetime |
| 'Mon Dec 30 21:27:03 2002' |
| >>> now.strftime('%Y %d %b') |
| '2002 30 Dec' |
| \end{verbatim} |
| |
| The \method{replace()} method allows modifying one or more fields |
| of a \class{date} or \class{datetime} instance: |
| |
| \begin{verbatim} |
| >>> d = datetime.datetime.now() |
| >>> d |
| datetime.datetime(2002, 12, 30, 22, 15, 38, 827738) |
| >>> d.replace(year=2001, hour = 12) |
| datetime.datetime(2001, 12, 30, 12, 15, 38, 827738) |
| >>> |
| \end{verbatim} |
| |
| Instances can be compared, hashed, and converted to strings (the |
| result is the same as that of \method{isoformat()}). \class{date} and |
| \class{datetime} instances can be subtracted from each other, and |
| added to \class{timedelta} instances. The largest missing feature is |
| that there's no support for parsing strings and getting back a |
| \class{date} or \class{datetime}. |
| |
| For more information, refer to the \ulink{module's reference |
| documentation}{../lib/module-datetime.html}. |
| (Contributed by Tim Peters.) |
| |
| |
| %====================================================================== |
| \subsection{The optparse Module} |
| |
| The \module{getopt} module provides simple parsing of command-line |
| arguments. The new \module{optparse} module (originally named Optik) |
| provides more elaborate command-line parsing that follows the Unix |
| conventions, automatically creates the output for \longprogramopt{help}, |
| and can perform different actions for different options. |
| |
| You start by creating an instance of \class{OptionParser} and telling |
| it what your program's options are. |
| |
| \begin{verbatim} |
| import sys |
| from optparse import OptionParser |
| |
| op = OptionParser() |
| op.add_option('-i', '--input', |
| action='store', type='string', dest='input', |
| help='set input filename') |
| op.add_option('-l', '--length', |
| action='store', type='int', dest='length', |
| help='set maximum length of output') |
| \end{verbatim} |
| |
| Parsing a command line is then done by calling the \method{parse_args()} |
| method. |
| |
| \begin{verbatim} |
| import optparse |
| |
| options, args = optparse.parse_args(sys.argv[1:]) |
| print options |
| print args |
| \end{verbatim} |
| |
| This returns an object containing all of the option values, |
| and a list of strings containing the remaining arguments. |
| |
| Invoking the script with the various arguments now works as you'd |
| expect it to. Note that the length argument is automatically |
| converted to an integer. |
| |
| \begin{verbatim} |
| $ ./python opt.py -i data arg1 |
| <Values at 0x400cad4c: {'input': 'data', 'length': None}> |
| ['arg1'] |
| $ ./python opt.py --input=data --length=4 |
| <Values at 0x400cad2c: {'input': 'data', 'length': 4}> |
| [] |
| $ |
| \end{verbatim} |
| |
| The help message is automatically generated for you: |
| |
| \begin{verbatim} |
| $ ./python opt.py --help |
| usage: opt.py [options] |
| |
| options: |
| -h, --help show this help message and exit |
| -iINPUT, --input=INPUT |
| set input filename |
| -lLENGTH, --length=LENGTH |
| set maximum length of output |
| $ |
| \end{verbatim} |
| % $ prevent Emacs tex-mode from getting confused |
| |
| See the \ulink{module's documentation}{../lib/module-optparse.html} |
| for more details. |
| |
| Optik was written by Greg Ward, with suggestions from the readers of |
| the Getopt SIG. |
| |
| |
| %====================================================================== |
| \section{Pymalloc: A Specialized Object Allocator\label{section-pymalloc}} |
| |
| Pymalloc, a specialized object allocator written by Vladimir |
| Marangozov, was a feature added to Python 2.1. Pymalloc is intended |
| to be faster than the system \cfunction{malloc()} and to have less |
| memory overhead for allocation patterns typical of Python programs. |
| The allocator uses C's \cfunction{malloc()} function to get large |
| pools of memory and then fulfills smaller memory requests from these |
| pools. |
| |
| In 2.1 and 2.2, pymalloc was an experimental feature and wasn't |
| enabled by default; you had to explicitly enable it when compiling |
| Python by providing the |
| \longprogramopt{with-pymalloc} option to the \program{configure} |
| script. In 2.3, pymalloc has had further enhancements and is now |
| enabled by default; you'll have to supply |
| \longprogramopt{without-pymalloc} to disable it. |
| |
| This change is transparent to code written in Python; however, |
| pymalloc may expose bugs in C extensions. Authors of C extension |
| modules should test their code with pymalloc enabled, |
| because some incorrect code may cause core dumps at runtime. |
| |
| There's one particularly common error that causes problems. There are |
| a number of memory allocation functions in Python's C API that have |
| previously just been aliases for the C library's \cfunction{malloc()} |
| and \cfunction{free()}, meaning that if you accidentally called |
| mismatched functions the error wouldn't be noticeable. When the |
| object allocator is enabled, these functions aren't aliases of |
| \cfunction{malloc()} and \cfunction{free()} any more, and calling the |
| wrong function to free memory may get you a core dump. For example, |
| if memory was allocated using \cfunction{PyObject_Malloc()}, it has to |
| be freed using \cfunction{PyObject_Free()}, not \cfunction{free()}. A |
| few modules included with Python fell afoul of this and had to be |
| fixed; doubtless there are more third-party modules that will have the |
| same problem. |
| |
| As part of this change, the confusing multiple interfaces for |
| allocating memory have been consolidated down into two API families. |
| Memory allocated with one family must not be manipulated with |
| functions from the other family. There is one family for allocating |
| chunks of memory, and another family of functions specifically for |
| allocating Python objects. |
| |
| \begin{itemize} |
| \item To allocate and free an undistinguished chunk of memory use |
| the ``raw memory'' family: \cfunction{PyMem_Malloc()}, |
| \cfunction{PyMem_Realloc()}, and \cfunction{PyMem_Free()}. |
| |
| \item The ``object memory'' family is the interface to the pymalloc |
| facility described above and is biased towards a large number of |
| ``small'' allocations: \cfunction{PyObject_Malloc}, |
| \cfunction{PyObject_Realloc}, and \cfunction{PyObject_Free}. |
| |
| \item To allocate and free Python objects, use the ``object'' family |
| \cfunction{PyObject_New()}, \cfunction{PyObject_NewVar()}, and |
| \cfunction{PyObject_Del()}. |
| \end{itemize} |
| |
| Thanks to lots of work by Tim Peters, pymalloc in 2.3 also provides |
| debugging features to catch memory overwrites and doubled frees in |
| both extension modules and in the interpreter itself. To enable this |
| support, compile a debugging version of the Python interpreter by |
| running \program{configure} with \longprogramopt{with-pydebug}. |
| |
| To aid extension writers, a header file \file{Misc/pymemcompat.h} is |
| distributed with the source to Python 2.3 that allows Python |
| extensions to use the 2.3 interfaces to memory allocation while |
| compiling against any version of Python since 1.5.2. You would copy |
| the file from Python's source distribution and bundle it with the |
| source of your extension. |
| |
| \begin{seealso} |
| |
| \seeurl{http://cvs.sourceforge.net/cgi-bin/viewcvs.cgi/python/python/dist/src/Objects/obmalloc.c} |
| {For the full details of the pymalloc implementation, see |
| the comments at the top of the file \file{Objects/obmalloc.c} in the |
| Python source code. The above link points to the file within the |
| SourceForge CVS browser.} |
| |
| \end{seealso} |
| |
| |
| % ====================================================================== |
| \section{Build and C API Changes} |
| |
| Changes to Python's build process and to the C API include: |
| |
| \begin{itemize} |
| |
| \item The C-level interface to the garbage collector has been changed, |
| to make it easier to write extension types that support garbage |
| collection, and to make it easier to debug misuses of the functions. |
| Various functions have slightly different semantics, so a bunch of |
| functions had to be renamed. Extensions that use the old API will |
| still compile but will \emph{not} participate in garbage collection, |
| so updating them for 2.3 should be considered fairly high priority. |
| |
| To upgrade an extension module to the new API, perform the following |
| steps: |
| |
| \begin{itemize} |
| |
| \item Rename \cfunction{Py_TPFLAGS_GC} to \cfunction{PyTPFLAGS_HAVE_GC}. |
| |
| \item Use \cfunction{PyObject_GC_New} or \cfunction{PyObject_GC_NewVar} to |
| allocate objects, and \cfunction{PyObject_GC_Del} to deallocate them. |
| |
| \item Rename \cfunction{PyObject_GC_Init} to \cfunction{PyObject_GC_Track} and |
| \cfunction{PyObject_GC_Fini} to \cfunction{PyObject_GC_UnTrack}. |
| |
| \item Remove \cfunction{PyGC_HEAD_SIZE} from object size calculations. |
| |
| \item Remove calls to \cfunction{PyObject_AS_GC} and \cfunction{PyObject_FROM_GC}. |
| |
| \end{itemize} |
| |
| \item The cycle detection implementation used by the garbage collection |
| has proven to be stable, so it's now being made mandatory; you can no |
| longer compile Python without it, and the |
| \longprogramopt{with-cycle-gc} switch to \program{configure} has been removed. |
| |
| \item Python can now optionally be built as a shared library |
| (\file{libpython2.3.so}) by supplying \longprogramopt{enable-shared} |
| when running Python's \program{configure} script. (Contributed by Ondrej |
| Palkovsky.) |
| |
| \item The \csimplemacro{DL_EXPORT} and \csimplemacro{DL_IMPORT} macros |
| are now deprecated. Initialization functions for Python extension |
| modules should now be declared using the new macro |
| \csimplemacro{PyMODINIT_FUNC}, while the Python core will generally |
| use the \csimplemacro{PyAPI_FUNC} and \csimplemacro{PyAPI_DATA} |
| macros. |
| |
| \item The interpreter can be compiled without any docstrings for |
| the built-in functions and modules by supplying |
| \longprogramopt{without-doc-strings} to the \program{configure} script. |
| This makes the Python executable about 10\% smaller, but will also |
| mean that you can't get help for Python's built-ins. (Contributed by |
| Gustavo Niemeyer.) |
| |
| \item The \cfunction{PyArg_NoArgs()} macro is now deprecated, and code |
| that uses it should be changed. For Python 2.2 and later, the method |
| definition table can specify the |
| \constant{METH_NOARGS} flag, signalling that there are no arguments, and |
| the argument checking can then be removed. If compatibility with |
| pre-2.2 versions of Python is important, the code could use |
| \code{PyArg_ParseTuple(\var{args}, "")} instead, but this will be slower |
| than using \constant{METH_NOARGS}. |
| |
| \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 \method{xreadlines()} method of file objects, introduced in |
| Python 2.1, is no longer necessary because files now behave as their |
| own iterator. \method{xreadlines()} was originally introduced as a |
| faster way to loop over all the lines in a file, but now you can |
| simply write \code{for line in file_obj}. |
| |
| \item File objects now manage their internal string buffer |
| differently, increasing it exponentially when needed. This results in |
| the benchmark tests in \file{Lib/test/test_bufio.py} speeding up |
| considerably (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. |
| |
| \item Python now includes a copy of the Expat XML parser's source code, |
| removing any dependence on a system version or local installation of |
| Expat. |
| |
| \item If you dynamically allocate type objects in your extension, you |
| should be aware of a change in the rules relating to the |
| \member{__module__} and \member{__name__} attributes. In summary, |
| you will want to ensure the type's dictionary contains a |
| \code{'__module__'} key; making the module name the part of the type |
| name leading up to the final period will no longer have the desired |
| effect. For more detail, read the API reference documentation or the |
| source. |
| |
| \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.) |
| |
| Other new platforms now supported by Python include AtheOS |
| (\url{http://www.atheos.cx/}), GNU/Hurd, and OpenVMS. |
| |
| |
| %====================================================================== |
| \section{Other Changes and Fixes \label{section-other}} |
| |
| As usual, there were a bunch of other improvements and bugfixes |
| scattered throughout the source tree. A search through the CVS change |
| logs finds there were 523 patches applied and 514 bugs fixed between |
| Python 2.2 and 2.3. Both figures are likely to be underestimates. |
| |
| Some of the more notable changes are: |
| |
| \begin{itemize} |
| |
| \item The \file{regrtest.py} script now provides a way to allow ``all |
| resources except \var{foo}.'' A resource name passed to the |
| \programopt{-u} option can now be prefixed with a hyphen |
| (\character{-}) to mean ``remove this resource.'' For example, the |
| option `\code{\programopt{-u}all,-bsddb}' could be used to enable the |
| use of all resources except \code{bsddb}. |
| |
| \item The tools used to build the documentation now work under Cygwin |
| as well as \UNIX. |
| |
| \item The \code{SET_LINENO} opcode has been removed. Back in the |
| mists of time, this opcode was needed to produce line numbers in |
| tracebacks and support trace functions (for, e.g., \module{pdb}). |
| Since Python 1.5, the line numbers in tracebacks have been computed |
| using a different mechanism that works with ``python -O''. For Python |
| 2.3 Michael Hudson implemented a similar scheme to determine when to |
| call the trace function, removing the need for \code{SET_LINENO} |
| entirely. |
| |
| It would be difficult to detect any resulting difference from Python |
| code, apart from a slight speed up when Python is run without |
| \programopt{-O}. |
| |
| C extensions that access the \member{f_lineno} field of frame objects |
| should instead call \code{PyCode_Addr2Line(f->f_code, f->f_lasti)}. |
| This will have the added effect of making the code work as desired |
| under ``python -O'' in earlier versions of Python. |
| |
| A nifty new feature is that trace functions can now assign to the |
| \member{f_lineno} attribute of frame objects, changing the line that |
| will be executed next. A \samp{jump} command has been added to the |
| \module{pdb} debugger taking advantage of this new feature. |
| (Implemented by Richie Hindle.) |
| |
| \end{itemize} |
| |
| |
| %====================================================================== |
| \section{Porting to Python 2.3} |
| |
| This section lists previously described changes that may require |
| changes to your code: |
| |
| \begin{itemize} |
| |
| \item \keyword{yield} is now always a keyword; if it's used as a |
| variable name in your code, a different name must be chosen. |
| |
| \item For strings \var{X} and \var{Y}, \code{\var{X} in \var{Y}} now works |
| if \var{X} is more than one character long. |
| |
| \item The \function{int()} type constructor will now return a long |
| integer instead of raising an \exception{OverflowError} when a string |
| or floating-point number is too large to fit into an integer. |
| |
| \item If you have Unicode strings that contain 8-bit characters, you |
| must declare the file's encoding (UTF-8, Latin-1, or whatever) by |
| adding a comment to the top of the file. See |
| section~\ref{section-encodings} for more information. |
| |
| \item Calling Tcl methods through \module{_tkinter} no longer |
| returns only strings. Instead, if Tcl returns other objects those |
| objects are converted to their Python equivalent, if one exists, or |
| wrapped with a \class{_tkinter.Tcl_Obj} object if no Python equivalent |
| exists. |
| |
| \item Large octal and hex literals such as |
| \code{0xffffffff} now trigger a \exception{FutureWarning}. Currently |
| they're stored as 32-bit numbers and result in a negative value, but |
| in Python 2.4 they'll become positive long integers. |
| |
| There are a few ways to fix this warning. If you really need a |
| positive number, just add an \samp{L} to the end of the literal. If |
| you're trying to get a 32-bit integer with low bits set and have |
| previously used an expression such as \code{~(1 << 31)}, it's probably |
| clearest to start with all bits set and clear the desired upper bits. |
| For example, to clear just the top bit (bit 31), you could write |
| \code{0xffffffffL {\&}{\textasciitilde}(1L<<31)}. |
| |
| \item You can no longer disable assertions by assigning to \code{__debug__}. |
| |
| \item The Distutils \function{setup()} function has gained various new |
| keyword arguments such as \var{depends}. Old versions of the |
| Distutils will abort if passed unknown keywords. The fix is to check |
| for the presence of the new \function{get_distutil_options()} function |
| in your \file{setup.py} if you want to only support the new keywords |
| with a version of the Distutils that supports them: |
| |
| \begin{verbatim} |
| from distutils import core |
| |
| kw = {'sources': 'foo.c', ...} |
| if hasattr(core, 'get_distutil_options'): |
| kw['depends'] = ['foo.h'] |
| ext = Extension(**kw) |
| \end{verbatim} |
| |
| \item Using \code{None} as a variable name will now result in a |
| \exception{SyntaxWarning} warning. |
| |
| \item Names of extension types defined by the modules included with |
| Python now contain the module and a \character{.} in front of the type |
| name. |
| |
| \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: Jeff Bauer, Simon Brunning, Brett Cannon, Michael Chermside, |
| Andrew Dalke, Scott David Daniels, Fred~L. Drake, Jr., Kelly Gerber, |
| Raymond Hettinger, Michael Hudson, Chris Lambert, Detlef Lannert, |
| Martin von~L\"owis, Andrew MacIntyre, Lalo Martins, Chad Netzer, |
| Gustavo Niemeyer, Neal Norwitz, Hans Nowak, Chris Reedy, Francesco |
| Ricciardi, Vinay Sajip, Neil Schemenauer, Roman Suzi, Jason Tishler, |
| Just van~Rossum. |
| |
| \end{document} |