mirror of https://github.com/python/cpython
2087 lines
88 KiB
ReStructuredText
2087 lines
88 KiB
ReStructuredText
****************************
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What's New in Python 2.3
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****************************
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:Author: A.M. Kuchling
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.. |release| replace:: 1.01
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.. $Id: whatsnew23.tex 54631 2007-03-31 11:58:36Z georg.brandl $
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This article explains the new features in Python 2.3. Python 2.3 was released
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on July 29, 2003.
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The main themes for Python 2.3 are polishing some of the features added in 2.2,
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adding various small but useful enhancements to the core language, and expanding
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the standard library. The new object model introduced in the previous version
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has benefited from 18 months of bugfixes and from optimization efforts that have
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improved the performance of new-style classes. A few new built-in functions
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have been added such as :func:`sum` and :func:`enumerate`. The :keyword:`in`
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operator can now be used for substring searches (e.g. ``"ab" in "abc"`` returns
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:const:`True`).
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Some of the many new library features include Boolean, set, heap, and date/time
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data types, the ability to import modules from ZIP-format archives, metadata
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support for the long-awaited Python catalog, an updated version of IDLE, and
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modules for logging messages, wrapping text, parsing CSV files, processing
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command-line options, using BerkeleyDB databases... the list of new and
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enhanced modules is lengthy.
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This article doesn't attempt to provide a complete specification of the new
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features, but instead provides a convenient overview. For full details, you
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should refer to the documentation for Python 2.3, such as the Python Library
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Reference and the Python Reference Manual. If you want to understand the
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complete implementation and design rationale, refer to the PEP for a particular
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new feature.
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.. ======================================================================
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PEP 218: A Standard Set Datatype
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================================
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The new :mod:`sets` module contains an implementation of a set datatype. The
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:class:`Set` class is for mutable sets, sets that can have members added and
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removed. The :class:`ImmutableSet` class is for sets that can't be modified,
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and instances of :class:`ImmutableSet` can therefore be used as dictionary keys.
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Sets are built on top of dictionaries, so the elements within a set must be
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hashable.
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Here's a simple example::
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>>> import sets
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>>> S = sets.Set([1,2,3])
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>>> S
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Set([1, 2, 3])
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>>> 1 in S
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True
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>>> 0 in S
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False
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>>> S.add(5)
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>>> S.remove(3)
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>>> S
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Set([1, 2, 5])
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>>>
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The union and intersection of sets can be computed with the :meth:`union` and
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:meth:`intersection` methods; an alternative notation uses the bitwise operators
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``&`` and ``|``. Mutable sets also have in-place versions of these methods,
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:meth:`union_update` and :meth:`intersection_update`. ::
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>>> S1 = sets.Set([1,2,3])
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>>> S2 = sets.Set([4,5,6])
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>>> S1.union(S2)
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Set([1, 2, 3, 4, 5, 6])
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>>> S1 | S2 # Alternative notation
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Set([1, 2, 3, 4, 5, 6])
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>>> S1.intersection(S2)
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Set([])
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>>> S1 & S2 # Alternative notation
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Set([])
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>>> S1.union_update(S2)
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>>> S1
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Set([1, 2, 3, 4, 5, 6])
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>>>
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It's also possible to take the symmetric difference of two sets. This is the
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set of all elements in the union that aren't in the intersection. Another way
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of putting it is that the symmetric difference contains all elements that are in
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exactly one set. Again, there's an alternative notation (``^``), and an
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in-place version with the ungainly name :meth:`symmetric_difference_update`. ::
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>>> S1 = sets.Set([1,2,3,4])
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>>> S2 = sets.Set([3,4,5,6])
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>>> S1.symmetric_difference(S2)
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Set([1, 2, 5, 6])
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>>> S1 ^ S2
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Set([1, 2, 5, 6])
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>>>
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There are also :meth:`issubset` and :meth:`issuperset` methods for checking
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whether one set is a subset or superset of another::
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>>> S1 = sets.Set([1,2,3])
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>>> S2 = sets.Set([2,3])
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>>> S2.issubset(S1)
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True
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>>> S1.issubset(S2)
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False
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>>> S1.issuperset(S2)
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True
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>>>
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.. seealso::
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:pep:`218` - Adding a Built-In Set Object Type
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PEP written by Greg V. Wilson. Implemented by Greg V. Wilson, Alex Martelli, and
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GvR.
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.. ======================================================================
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.. _section-generators:
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PEP 255: Simple Generators
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==========================
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In Python 2.2, generators were added as an optional feature, to be enabled by a
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``from __future__ import generators`` directive. In 2.3 generators no longer
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need to be specially enabled, and are now always present; this means that
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:keyword:`yield` is now always a keyword. The rest of this section is a copy of
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the description of generators from the "What's New in Python 2.2" document; if
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you read it back when Python 2.2 came out, you can skip the rest of this
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section.
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You're doubtless familiar with how function calls work in Python or C. When you
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call a function, it gets a private namespace where its local variables are
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created. When the function reaches a :keyword:`return` statement, the local
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variables are destroyed and the resulting value is returned to the caller. A
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later call to the same function will get a fresh new set of local variables.
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But, what if the local variables weren't thrown away on exiting a function?
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What if you could later resume the function where it left off? This is what
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generators provide; they can be thought of as resumable functions.
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Here's the simplest example of a generator function::
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def generate_ints(N):
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for i in range(N):
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yield i
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A new keyword, :keyword:`yield`, was introduced for generators. Any function
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containing a :keyword:`!yield` statement is a generator function; this is
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detected by Python's bytecode compiler which compiles the function specially as
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a result.
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When you call a generator function, it doesn't return a single value; instead it
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returns a generator object that supports the iterator protocol. On executing
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the :keyword:`yield` statement, the generator outputs the value of ``i``,
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similar to a :keyword:`return` statement. The big difference between
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:keyword:`!yield` and a :keyword:`!return` statement is that on reaching a
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:keyword:`!yield` the generator's state of execution is suspended and local
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variables are preserved. On the next call to the generator's ``.next()``
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method, the function will resume executing immediately after the
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:keyword:`!yield` statement. (For complicated reasons, the :keyword:`!yield`
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statement isn't allowed inside the :keyword:`try` block of a
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:keyword:`!try`...\ :keyword:`!finally` statement; read :pep:`255` for a full
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explanation of the interaction between :keyword:`!yield` and exceptions.)
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Here's a sample usage of the :func:`generate_ints` generator::
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>>> gen = generate_ints(3)
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>>> gen
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<generator object at 0x8117f90>
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>>> gen.next()
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0
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>>> gen.next()
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1
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>>> gen.next()
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2
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>>> gen.next()
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Traceback (most recent call last):
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File "stdin", line 1, in ?
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File "stdin", line 2, in generate_ints
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StopIteration
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You could equally write ``for i in generate_ints(5)``, or ``a,b,c =
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generate_ints(3)``.
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Inside a generator function, the :keyword:`return` statement can only be used
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without a value, and signals the end of the procession of values; afterwards the
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generator cannot return any further values. :keyword:`!return` with a value, such
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as ``return 5``, is a syntax error inside a generator function. The end of the
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generator's results can also be indicated by raising :exc:`StopIteration`
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manually, or by just letting the flow of execution fall off the bottom of the
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function.
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You could achieve the effect of generators manually by writing your own class
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and storing all the local variables of the generator as instance variables. For
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example, returning a list of integers could be done by setting ``self.count`` to
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0, and having the :meth:`next` method increment ``self.count`` and return it.
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However, for a moderately complicated generator, writing a corresponding class
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would be much messier. :file:`Lib/test/test_generators.py` contains a number of
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more interesting examples. The simplest one implements an in-order traversal of
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a tree using generators recursively. ::
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# A recursive generator that generates Tree leaves in in-order.
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def inorder(t):
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if t:
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for x in inorder(t.left):
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yield x
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yield t.label
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for x in inorder(t.right):
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yield x
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Two other examples in :file:`Lib/test/test_generators.py` produce solutions for
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the N-Queens problem (placing $N$ queens on an $NxN$ chess board so that no
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queen threatens another) and the Knight's Tour (a route that takes a knight to
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every square of an $NxN$ chessboard without visiting any square twice).
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The idea of generators comes from other programming languages, especially Icon
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(https://www2.cs.arizona.edu/icon/), where the idea of generators is central. In
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Icon, every expression and function call behaves like a generator. One example
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from "An Overview of the Icon Programming Language" at
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https://www2.cs.arizona.edu/icon/docs/ipd266.htm gives an idea of what this looks
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like::
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sentence := "Store it in the neighboring harbor"
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if (i := find("or", sentence)) > 5 then write(i)
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In Icon the :func:`find` function returns the indexes at which the substring
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"or" is found: 3, 23, 33. In the :keyword:`if` statement, ``i`` is first
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assigned a value of 3, but 3 is less than 5, so the comparison fails, and Icon
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retries it with the second value of 23. 23 is greater than 5, so the comparison
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now succeeds, and the code prints the value 23 to the screen.
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Python doesn't go nearly as far as Icon in adopting generators as a central
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concept. Generators are considered part of the core Python language, but
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learning or using them isn't compulsory; if they don't solve any problems that
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you have, feel free to ignore them. One novel feature of Python's interface as
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compared to Icon's is that a generator's state is represented as a concrete
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object (the iterator) that can be passed around to other functions or stored in
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a data structure.
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.. seealso::
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:pep:`255` - Simple Generators
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Written by Neil Schemenauer, Tim Peters, Magnus Lie Hetland. Implemented mostly
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by Neil Schemenauer and Tim Peters, with other fixes from the Python Labs crew.
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.. ======================================================================
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.. _section-encodings:
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PEP 263: Source Code Encodings
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==============================
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Python source files can now be declared as being in different character set
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encodings. Encodings are declared by including a specially formatted comment in
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the first or second line of the source file. For example, a UTF-8 file can be
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declared with::
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#!/usr/bin/env python
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# -*- coding: UTF-8 -*-
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Without such an encoding declaration, the default encoding used is 7-bit ASCII.
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Executing or importing modules that contain string literals with 8-bit
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characters and have no encoding declaration will result in a
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:exc:`DeprecationWarning` being signalled by Python 2.3; in 2.4 this will be a
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syntax error.
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The encoding declaration only affects Unicode string literals, which will be
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converted to Unicode using the specified encoding. Note that Python identifiers
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are still restricted to ASCII characters, so you can't have variable names that
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use characters outside of the usual alphanumerics.
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.. seealso::
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:pep:`263` - Defining Python Source Code Encodings
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Written by Marc-André Lemburg and Martin von Löwis; implemented by Suzuki Hisao
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and Martin von Löwis.
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.. ======================================================================
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PEP 273: Importing Modules from ZIP Archives
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============================================
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The new :mod:`zipimport` module adds support for importing modules from a
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ZIP-format archive. You don't need to import the module explicitly; it will be
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automatically imported if a ZIP archive's filename is added to ``sys.path``.
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For example:
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.. code-block:: shell-session
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amk@nyman:~/src/python$ unzip -l /tmp/example.zip
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Archive: /tmp/example.zip
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Length Date Time Name
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-------- ---- ---- ----
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8467 11-26-02 22:30 jwzthreading.py
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-------- -------
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8467 1 file
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amk@nyman:~/src/python$ ./python
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Python 2.3 (#1, Aug 1 2003, 19:54:32)
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>>> import sys
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>>> sys.path.insert(0, '/tmp/example.zip') # Add .zip file to front of path
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>>> import jwzthreading
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>>> jwzthreading.__file__
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'/tmp/example.zip/jwzthreading.py'
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>>>
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An entry in ``sys.path`` can now be the filename of a ZIP archive. The ZIP
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archive can contain any kind of files, but only files named :file:`\*.py`,
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:file:`\*.pyc`, or :file:`\*.pyo` can be imported. If an archive only contains
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:file:`\*.py` files, Python will not attempt to modify the archive by adding the
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corresponding :file:`\*.pyc` file, meaning that if a ZIP archive doesn't contain
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:file:`\*.pyc` files, importing may be rather slow.
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A path within the archive can also be specified to only import from a
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subdirectory; for example, the path :file:`/tmp/example.zip/lib/` would only
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import from the :file:`lib/` subdirectory within the archive.
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.. seealso::
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:pep:`273` - Import Modules from Zip Archives
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Written by James C. Ahlstrom, who also provided an implementation. Python 2.3
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follows the specification in :pep:`273`, but uses an implementation written by
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Just van Rossum that uses the import hooks described in :pep:`302`. See section
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:ref:`section-pep302` for a description of the new import hooks.
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.. ======================================================================
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PEP 277: Unicode file name support for Windows NT
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=================================================
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On Windows NT, 2000, and XP, the system stores file names as Unicode strings.
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Traditionally, Python has represented file names as byte strings, which is
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inadequate because it renders some file names inaccessible.
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Python now allows using arbitrary Unicode strings (within the limitations of the
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file system) for all functions that expect file names, most notably the
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:func:`open` built-in function. If a Unicode string is passed to
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:func:`os.listdir`, Python now returns a list of Unicode strings. A new
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function, :func:`os.getcwdu`, returns the current directory as a Unicode string.
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Byte strings still work as file names, and on Windows Python will transparently
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convert them to Unicode using the ``mbcs`` encoding.
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Other systems also allow Unicode strings as file names but convert them to byte
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strings before passing them to the system, which can cause a :exc:`UnicodeError`
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to be raised. Applications can test whether arbitrary Unicode strings are
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supported as file names by checking :attr:`os.path.supports_unicode_filenames`,
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a Boolean value.
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Under MacOS, :func:`os.listdir` may now return Unicode filenames.
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.. seealso::
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:pep:`277` - Unicode file name support for Windows NT
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Written by Neil Hodgson; implemented by Neil Hodgson, Martin von Löwis, and Mark
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Hammond.
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.. ======================================================================
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.. index::
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single: universal newlines; What's new
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PEP 278: Universal Newline Support
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==================================
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The three major operating systems used today are Microsoft Windows, Apple's
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Macintosh OS, and the various Unix derivatives. A minor irritation of
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cross-platform work is that these three platforms all use different characters to
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mark the ends of lines in text files. Unix uses the linefeed (ASCII character
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10), MacOS uses the carriage return (ASCII character 13), and Windows uses a
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two-character sequence of a carriage return plus a newline.
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Python's file objects can now support end of line conventions other than the
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one followed by the platform on which Python is running. Opening a file with
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the mode ``'U'`` or ``'rU'`` will open a file for reading in :term:`universal
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newlines` mode. All three line ending conventions will be translated to a
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``'\n'`` in the strings returned by the various file methods such as
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:meth:`read` and :meth:`readline`.
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Universal newline support is also used when importing modules and when executing
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a file with the :func:`execfile` function. This means that Python modules can
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be shared between all three operating systems without needing to convert the
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line-endings.
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This feature can be disabled when compiling Python by specifying the
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:option:`!--without-universal-newlines` switch when running Python's
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:program:`configure` script.
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.. seealso::
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:pep:`278` - Universal Newline Support
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Written and implemented by Jack Jansen.
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.. ======================================================================
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.. _section-enumerate:
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PEP 279: enumerate()
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====================
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A new built-in function, :func:`enumerate`, will make certain loops a bit
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clearer. ``enumerate(thing)``, where *thing* is either an iterator or a
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sequence, returns an iterator that will return ``(0, thing[0])``, ``(1,
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thing[1])``, ``(2, thing[2])``, and so forth.
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A common idiom to change every element of a list looks like this::
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for i in range(len(L)):
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item = L[i]
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# ... compute some result based on item ...
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L[i] = result
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This can be rewritten using :func:`enumerate` as::
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for i, item in enumerate(L):
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# ... compute some result based on item ...
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L[i] = result
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.. seealso::
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:pep:`279` - The enumerate() built-in function
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Written and implemented by Raymond D. Hettinger.
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.. ======================================================================
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PEP 282: The logging Package
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============================
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A standard package for writing logs, :mod:`logging`, has been added to Python
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2.3. It provides a powerful and flexible mechanism for generating logging
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output which can then be filtered and processed in various ways. A
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configuration file written in a standard format can be used to control the
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logging behavior of a program. Python includes handlers that will write log
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records to standard error or to a file or socket, send them to the system log,
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or even e-mail them to a particular address; of course, it's also possible to
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write your own handler classes.
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The :class:`Logger` class is the primary class. Most application code will deal
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with one or more :class:`Logger` objects, each one used by a particular
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subsystem of the application. Each :class:`Logger` is identified by a name, and
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names are organized into a hierarchy using ``.`` as the component separator.
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For example, you might have :class:`Logger` instances named ``server``,
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``server.auth`` and ``server.network``. The latter two instances are below
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``server`` in the hierarchy. This means that if you turn up the verbosity for
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``server`` or direct ``server`` messages to a different handler, the changes
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will also apply to records logged to ``server.auth`` and ``server.network``.
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There's also a root :class:`Logger` that's the parent of all other loggers.
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For simple uses, the :mod:`logging` package contains some convenience functions
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that always use the root log::
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import logging
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logging.debug('Debugging information')
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logging.info('Informational message')
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logging.warning('Warning:config file %s not found', 'server.conf')
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logging.error('Error occurred')
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logging.critical('Critical error -- shutting down')
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This produces the following output::
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WARNING:root:Warning:config file server.conf not found
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ERROR:root:Error occurred
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CRITICAL:root:Critical error -- shutting down
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In the default configuration, informational and debugging messages are
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suppressed and the output is sent to standard error. You can enable the display
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of informational and debugging messages by calling the :meth:`setLevel` method
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on the root logger.
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|
|
Notice the :func:`warning` call's use of string formatting operators; all of the
|
|
functions for logging messages take the arguments ``(msg, arg1, arg2, ...)`` and
|
|
log the string resulting from ``msg % (arg1, arg2, ...)``.
|
|
|
|
There's also an :func:`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 *exc_info*. ::
|
|
|
|
def f():
|
|
try: 1/0
|
|
except: logging.exception('Problem recorded')
|
|
|
|
f()
|
|
|
|
This produces the following output::
|
|
|
|
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
|
|
|
|
Slightly more advanced programs will use a logger other than the root logger.
|
|
The ``getLogger(name)`` function is used to get a particular log, creating
|
|
it if it doesn't exist yet. ``getLogger(None)`` returns the root logger. ::
|
|
|
|
log = logging.getLogger('server')
|
|
...
|
|
log.info('Listening on port %i', port)
|
|
...
|
|
log.critical('Disk full')
|
|
...
|
|
|
|
Log records are usually propagated up the hierarchy, so a message logged to
|
|
``server.auth`` is also seen by ``server`` and ``root``, but a :class:`Logger`
|
|
can prevent this by setting its :attr:`propagate` attribute to :const:`False`.
|
|
|
|
There are more classes provided by the :mod:`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 :mod:`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 package's reference
|
|
documentation for all of the details. Reading :pep:`282` will also be helpful.
|
|
|
|
|
|
.. seealso::
|
|
|
|
:pep:`282` - A Logging System
|
|
Written by Vinay Sajip and Trent Mick; implemented by Vinay Sajip.
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
.. _section-bool:
|
|
|
|
PEP 285: A Boolean Type
|
|
=======================
|
|
|
|
A Boolean type was added to Python 2.3. Two new constants were added to the
|
|
:mod:`__builtin__` module, :const:`True` and :const:`False`. (:const:`True` and
|
|
:const:`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 :const:`True` or :const:`False`. ::
|
|
|
|
>>> bool(1)
|
|
True
|
|
>>> bool(0)
|
|
False
|
|
>>> bool([])
|
|
False
|
|
>>> bool( (1,) )
|
|
True
|
|
|
|
Most of the standard library modules and built-in functions have been changed to
|
|
return Booleans. ::
|
|
|
|
>>> obj = []
|
|
>>> hasattr(obj, 'append')
|
|
True
|
|
>>> isinstance(obj, list)
|
|
True
|
|
>>> isinstance(obj, tuple)
|
|
False
|
|
|
|
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 ``return 1``,
|
|
you might wonder whether the ``1`` represents a Boolean truth value, an index,
|
|
or a coefficient that multiplies some other quantity. If the statement is
|
|
``return True``, however, the meaning of the return value is quite clear.
|
|
|
|
Python's Booleans were *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. ::
|
|
|
|
>>> True + 1
|
|
2
|
|
>>> False + 1
|
|
1
|
|
>>> False * 75
|
|
0
|
|
>>> True * 75
|
|
75
|
|
|
|
To sum up :const:`True` and :const:`False` in a sentence: they're alternative
|
|
ways to spell the integer values 1 and 0, with the single difference that
|
|
:func:`str` and :func:`repr` return the strings ``'True'`` and ``'False'``
|
|
instead of ``'1'`` and ``'0'``.
|
|
|
|
|
|
.. seealso::
|
|
|
|
:pep:`285` - Adding a bool type
|
|
Written and implemented by GvR.
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
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 :exc:`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 :func:`codecs.register_error`, and codecs then
|
|
can access the error handler with :func:`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.
|
|
|
|
|
|
.. seealso::
|
|
|
|
:pep:`293` - Codec Error Handling Callbacks
|
|
Written and implemented by Walter Dörwald.
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
.. _section-pep301:
|
|
|
|
PEP 301: Package Index and Metadata for Distutils
|
|
=================================================
|
|
|
|
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 ``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
|
|
https://pypi.org.
|
|
|
|
To make the catalog a bit more useful, a new optional *classifiers* keyword
|
|
argument has been added to the Distutils :func:`setup` function. A list of
|
|
`Trove <http://catb.org/~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::
|
|
|
|
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)
|
|
|
|
The full list of classifiers can be obtained by running ``python setup.py
|
|
register --list-classifiers``.
|
|
|
|
|
|
.. seealso::
|
|
|
|
:pep:`301` - Package Index and Metadata for Distutils
|
|
Written and implemented by Richard Jones.
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
.. _section-pep302:
|
|
|
|
PEP 302: New Import Hooks
|
|
=========================
|
|
|
|
While it's been possible to write custom import hooks ever since the
|
|
:mod:`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 :mod:`imputil` and :mod:`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 :mod:`iu` module. Three new items are added to the :mod:`sys`
|
|
module:
|
|
|
|
* ``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
|
|
:exc:`ImportError` exception if it can't handle this path.
|
|
|
|
* ``sys.path_importer_cache`` caches importer objects for each path, so
|
|
``sys.path_hooks`` will only need to be traversed once for each path.
|
|
|
|
* ``sys.meta_path`` is a list of importer objects that will be traversed before
|
|
``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.
|
|
|
|
Importer objects must have a single method, ``find_module(fullname,
|
|
path=None)``. *fullname* will be a module or package name, e.g. ``string`` or
|
|
``distutils.core``. :meth:`!find_module` must return a loader object that has a
|
|
single method, ``load_module(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)::
|
|
|
|
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
|
|
|
|
|
|
.. seealso::
|
|
|
|
:pep:`302` - New Import Hooks
|
|
Written by Just van Rossum and Paul Moore. Implemented by Just van Rossum.
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
.. _section-pep305:
|
|
|
|
PEP 305: Comma-separated Files
|
|
==============================
|
|
|
|
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::
|
|
|
|
Costs,150,200,3.95
|
|
|
|
Read a line and call ``line.split(',')``: what could be simpler? But toss in
|
|
string data that can contain commas, and things get more complicated::
|
|
|
|
"Costs",150,200,3.95,"Includes taxes, shipping, and sundry items"
|
|
|
|
A big ugly regular expression can parse this, but using the new :mod:`csv`
|
|
package is much simpler::
|
|
|
|
import csv
|
|
|
|
input = open('datafile', 'rb')
|
|
reader = csv.reader(input)
|
|
for line in reader:
|
|
print line
|
|
|
|
The :func:`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.
|
|
|
|
|
|
.. seealso::
|
|
|
|
:pep:`305` - CSV File API
|
|
Written and implemented by Kevin Altis, Dave Cole, Andrew McNamara, Skip
|
|
Montanaro, Cliff Wells.
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
.. _section-pep307:
|
|
|
|
PEP 307: Pickle Enhancements
|
|
============================
|
|
|
|
The :mod:`pickle` and :mod:`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 :func:`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, :const:`pickle.HIGHEST_PROTOCOL`, can be used to select the
|
|
fanciest protocol available.
|
|
|
|
Unpickling is no longer considered a safe operation. 2.2's :mod:`pickle`
|
|
provided hooks for trying to prevent unsafe classes from being unpickled
|
|
(specifically, a :attr:`__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:
|
|
:meth:`__getstate__`, :meth:`__setstate__`, and :meth:`__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.
|
|
|
|
|
|
.. seealso::
|
|
|
|
:pep:`307` - Extensions to the pickle protocol
|
|
Written and implemented by Guido van Rossum and Tim Peters.
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
.. _section-slices:
|
|
|
|
Extended 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:
|
|
``L[1:10:2]``, ``L[:-1:1]``, ``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 :exc:`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::
|
|
|
|
>>> L = range(10)
|
|
>>> L[::2]
|
|
[0, 2, 4, 6, 8]
|
|
|
|
Negative values also work to make a copy of the same list in reverse order::
|
|
|
|
>>> L[::-1]
|
|
[9, 8, 7, 6, 5, 4, 3, 2, 1, 0]
|
|
|
|
This also works for tuples, arrays, and strings::
|
|
|
|
>>> s='abcd'
|
|
>>> s[::2]
|
|
'ac'
|
|
>>> s[::-1]
|
|
'dcba'
|
|
|
|
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::
|
|
|
|
>>> a = range(3)
|
|
>>> a
|
|
[0, 1, 2]
|
|
>>> a[1:3] = [4, 5, 6]
|
|
>>> a
|
|
[0, 4, 5, 6]
|
|
|
|
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::
|
|
|
|
>>> 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
|
|
|
|
Deletion is more straightforward::
|
|
|
|
>>> a = range(4)
|
|
>>> a
|
|
[0, 1, 2, 3]
|
|
>>> a[::2]
|
|
[0, 2]
|
|
>>> del a[::2]
|
|
>>> a
|
|
[1, 3]
|
|
|
|
One can also now pass slice objects to the :meth:`__getitem__` methods of the
|
|
built-in sequences::
|
|
|
|
>>> range(10).__getitem__(slice(0, 5, 2))
|
|
[0, 2, 4]
|
|
|
|
Or use slice objects directly in subscripts::
|
|
|
|
>>> range(10)[slice(0, 5, 2)]
|
|
[0, 2, 4]
|
|
|
|
To simplify implementing sequences that support extended slicing, slice objects
|
|
now have a method ``indices(length)`` which, given the length of a sequence,
|
|
returns a ``(start, stop, step)`` tuple that can be passed directly to
|
|
:func:`range`. :meth:`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::
|
|
|
|
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) for i in range(*indices)])
|
|
else:
|
|
return self.calc_item(i)
|
|
|
|
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.
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
Other Language Changes
|
|
======================
|
|
|
|
Here are all of the changes that Python 2.3 makes to the core Python language.
|
|
|
|
* The :keyword:`yield` statement is now always a keyword, as described in
|
|
section :ref:`section-generators` of this document.
|
|
|
|
* A new built-in function :func:`enumerate` was added, as described in section
|
|
:ref:`section-enumerate` of this document.
|
|
|
|
* Two new constants, :const:`True` and :const:`False` were added along with the
|
|
built-in :class:`bool` type, as described in section :ref:`section-bool` of this
|
|
document.
|
|
|
|
* The :func:`int` type constructor will now return a long integer instead of
|
|
raising an :exc:`OverflowError` when a string or floating-point number is too
|
|
large to fit into an integer. This can lead to the paradoxical result that
|
|
``isinstance(int(expression), int)`` is false, but that seems unlikely to cause
|
|
problems in practice.
|
|
|
|
* Built-in types now support the extended slicing syntax, as described in
|
|
section :ref:`section-slices` of this document.
|
|
|
|
* A new built-in function, ``sum(iterable, start=0)``, adds up the numeric
|
|
items in the iterable object and returns their sum. :func:`sum` only accepts
|
|
numbers, meaning that you can't use it to concatenate a bunch of strings.
|
|
(Contributed by Alex Martelli.)
|
|
|
|
* ``list.insert(pos, value)`` used to insert *value* at the front of the list
|
|
when *pos* was negative. The behaviour has now been changed to be consistent
|
|
with slice indexing, so when *pos* is -1 the value will be inserted before the
|
|
last element, and so forth.
|
|
|
|
* ``list.index(value)``, which searches for *value* within the list and returns
|
|
its index, now takes optional *start* and *stop* arguments to limit the search
|
|
to only part of the list.
|
|
|
|
* Dictionaries have a new method, ``pop(key[, *default*])``, that returns
|
|
the value corresponding to *key* and removes that key/value pair from the
|
|
dictionary. If the requested key isn't present in the dictionary, *default* is
|
|
returned if it's specified and :exc:`KeyError` raised if it isn't. ::
|
|
|
|
>>> 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
|
|
{}
|
|
>>>
|
|
|
|
There's also a new class method, ``dict.fromkeys(iterable, value)``, that
|
|
creates a dictionary with keys taken from the supplied iterator *iterable* and
|
|
all values set to *value*, defaulting to ``None``.
|
|
|
|
(Patches contributed by Raymond Hettinger.)
|
|
|
|
Also, the :func:`dict` constructor now accepts keyword arguments to simplify
|
|
creating small dictionaries::
|
|
|
|
>>> dict(red=1, blue=2, green=3, black=4)
|
|
{'blue': 2, 'black': 4, 'green': 3, 'red': 1}
|
|
|
|
(Contributed by Just van Rossum.)
|
|
|
|
* The :keyword:`assert` statement no longer checks the ``__debug__`` flag, so
|
|
you can no longer disable assertions by assigning to ``__debug__``. Running
|
|
Python with the :option:`-O` switch will still generate code that doesn't
|
|
execute any assertions.
|
|
|
|
* 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 :mod:`new` module
|
|
can be deprecated in a future Python version, because you can now use the type
|
|
objects available in the :mod:`types` module.) For example, you can create a new
|
|
module object with the following code:
|
|
|
|
::
|
|
|
|
>>> import types
|
|
>>> m = types.ModuleType('abc','docstring')
|
|
>>> m
|
|
<module 'abc' (built-in)>
|
|
>>> m.__doc__
|
|
'docstring'
|
|
|
|
* A new warning, :exc:`PendingDeprecationWarning` was added to indicate features
|
|
which are in the process of being deprecated. The warning will *not* be printed
|
|
by default. To check for use of features that will be deprecated in the future,
|
|
supply :option:`-Walways::PendingDeprecationWarning:: <-W>` on the command line or
|
|
use :func:`warnings.filterwarnings`.
|
|
|
|
* The process of deprecating string-based exceptions, as in ``raise "Error
|
|
occurred"``, has begun. Raising a string will now trigger
|
|
:exc:`PendingDeprecationWarning`.
|
|
|
|
* Using ``None`` as a variable name will now result in a :exc:`SyntaxWarning`
|
|
warning. In a future version of Python, ``None`` may finally become a keyword.
|
|
|
|
* The :meth:`xreadlines` method of file objects, introduced in Python 2.1, is no
|
|
longer necessary because files now behave as their own iterator.
|
|
:meth:`xreadlines` was originally introduced as a faster way to loop over all
|
|
the lines in a file, but now you can simply write ``for line in file_obj``.
|
|
File objects also have a new read-only :attr:`encoding` attribute that gives the
|
|
encoding used by the file; Unicode strings written to the file will be
|
|
automatically converted to bytes using the given encoding.
|
|
|
|
* 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 `"A Monotonic Superclass Linearization
|
|
for Dylan" <https://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.19.3910>`_. To
|
|
understand the motivation for this change, read Michele Simionato's article
|
|
`"Python 2.3 Method Resolution Order" <http://www.phyast.pitt.edu/~micheles/mro.html>`_, or
|
|
read the thread on python-dev starting with the message at
|
|
https://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.
|
|
|
|
* 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
|
|
``sys.setcheckinterval(N)``. The limit can be retrieved with the new
|
|
:func:`sys.getcheckinterval` function.
|
|
|
|
* 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 ``'.'`` in
|
|
front of the type name. For example, in Python 2.2, if you created a socket and
|
|
printed its :attr:`__class__`, you'd get this output::
|
|
|
|
>>> s = socket.socket()
|
|
>>> s.__class__
|
|
<type 'socket'>
|
|
|
|
In 2.3, you get this::
|
|
|
|
>>> s.__class__
|
|
<type '_socket.socket'>
|
|
|
|
* One of the noted incompatibilities between old- and new-style classes has been
|
|
removed: you can now assign to the :attr:`~definition.__name__` and :attr:`~class.__bases__`
|
|
attributes of new-style classes. There are some restrictions on what can be
|
|
assigned to :attr:`~class.__bases__` along the lines of those relating to assigning to
|
|
an instance's :attr:`~instance.__class__` attribute.
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
String Changes
|
|
--------------
|
|
|
|
* The :keyword:`in` operator now works differently for strings. Previously, when
|
|
evaluating ``X in Y`` where *X* and *Y* are strings, *X* could only be a single
|
|
character. That's now changed; *X* can be a string of any length, and ``X in Y``
|
|
will return :const:`True` if *X* is a substring of *Y*. If *X* is the empty
|
|
string, the result is always :const:`True`. ::
|
|
|
|
>>> 'ab' in 'abcd'
|
|
True
|
|
>>> 'ad' in 'abcd'
|
|
False
|
|
>>> '' in 'abcd'
|
|
True
|
|
|
|
Note that this doesn't tell you where the substring starts; if you need that
|
|
information, use the :meth:`find` string method.
|
|
|
|
* The :meth:`strip`, :meth:`lstrip`, and :meth:`rstrip` string methods now have
|
|
an optional argument for specifying the characters to strip. The default is
|
|
still to remove all whitespace characters::
|
|
|
|
>>> ' abc '.strip()
|
|
'abc'
|
|
>>> '><><abc<><><>'.strip('<>')
|
|
'abc'
|
|
>>> '><><abc<><><>\n'.strip('<>')
|
|
'abc<><><>\n'
|
|
>>> u'\u4000\u4001abc\u4000'.strip(u'\u4000')
|
|
u'\u4001abc'
|
|
>>>
|
|
|
|
(Suggested by Simon Brunning and implemented by Walter Dörwald.)
|
|
|
|
* The :meth:`startswith` and :meth:`endswith` string methods now accept negative
|
|
numbers for the *start* and *end* parameters.
|
|
|
|
* Another new string method is :meth:`zfill`, originally a function in the
|
|
:mod:`string` module. :meth:`zfill` pads a numeric string with zeros on the
|
|
left until it's the specified width. Note that the ``%`` operator is still more
|
|
flexible and powerful than :meth:`zfill`. ::
|
|
|
|
>>> '45'.zfill(4)
|
|
'0045'
|
|
>>> '12345'.zfill(4)
|
|
'12345'
|
|
>>> 'goofy'.zfill(6)
|
|
'0goofy'
|
|
|
|
(Contributed by Walter Dörwald.)
|
|
|
|
* A new type object, :class:`basestring`, has been added. Both 8-bit strings and
|
|
Unicode strings inherit from this type, so ``isinstance(obj, basestring)`` will
|
|
return :const:`True` for either kind of string. It's a completely abstract
|
|
type, so you can't create :class:`basestring` instances.
|
|
|
|
* 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.)
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
Optimizations
|
|
-------------
|
|
|
|
* The creation of new-style class instances has been made much faster; they're
|
|
now faster than classic classes!
|
|
|
|
* The :meth:`sort` method of list objects has been extensively rewritten by Tim
|
|
Peters, and the implementation is significantly faster.
|
|
|
|
* 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.)
|
|
|
|
* The ``SET_LINENO`` opcode is now gone. This may provide a small speed
|
|
increase, depending on your compiler's idiosyncrasies. See section
|
|
:ref:`23section-other` for a longer explanation. (Removed by Michael Hudson.)
|
|
|
|
* :func:`xrange` objects now have their own iterator, making ``for i in
|
|
xrange(n)`` slightly faster than ``for i in range(n)``. (Patch by Raymond
|
|
Hettinger.)
|
|
|
|
* A number of small rearrangements have been made in various hotspots to improve
|
|
performance, such as inlining a function or removing some code. (Implemented
|
|
mostly by GvR, but lots of people have contributed single changes.)
|
|
|
|
The net result of the 2.3 optimizations is that Python 2.3 runs the pystone
|
|
benchmark around 25% faster than Python 2.2.
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
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.
|
|
|
|
* The :mod:`array` module now supports arrays of Unicode characters using the
|
|
``'u'`` format character. Arrays also now support using the ``+=`` assignment
|
|
operator to add another array's contents, and the ``*=`` assignment operator to
|
|
repeat an array. (Contributed by Jason Orendorff.)
|
|
|
|
* The :mod:`bsddb` module has been replaced by version 4.1.6 of the `PyBSDDB
|
|
<https://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 :mod:`bsddb185` and is no
|
|
longer built automatically; you'll have to edit :file:`Modules/Setup` to enable
|
|
it. Note that the new :mod:`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 the new interpreter is compiled with a new
|
|
version of 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 :file:`Tools/scripts` directory. If you've
|
|
already been using the PyBSDDB package and importing it as :mod:`bsddb3`, you
|
|
will have to change your ``import`` statements to import it as :mod:`bsddb`.
|
|
|
|
* The new :mod:`bz2` module is an interface to the bz2 data compression library.
|
|
bz2-compressed data is usually smaller than corresponding
|
|
:mod:`zlib`\ -compressed data. (Contributed by Gustavo Niemeyer.)
|
|
|
|
* A set of standard date/time types has been added in the new :mod:`datetime`
|
|
module. See the following section for more details.
|
|
|
|
* The Distutils :class:`Extension` class now supports an extra constructor
|
|
argument named *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::
|
|
|
|
ext = Extension("samp",
|
|
sources=["sampmodule.c"],
|
|
depends=["sample.h"])
|
|
|
|
Modifying :file:`sample.h` would then cause the module to be recompiled.
|
|
(Contributed by Jeremy Hylton.)
|
|
|
|
* 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).
|
|
|
|
* Previously the :mod:`doctest` module would only search the docstrings of
|
|
public methods and functions for test cases, but it now also examines private
|
|
ones as well. The :func:`DocTestSuite` function creates a
|
|
:class:`unittest.TestSuite` object from a set of :mod:`doctest` tests.
|
|
|
|
* The new ``gc.get_referents(object)`` function returns a list of all the
|
|
objects referenced by *object*.
|
|
|
|
* The :mod:`getopt` module gained a new function, :func:`gnu_getopt`, that
|
|
supports the same arguments as the existing :func:`getopt` function but uses
|
|
GNU-style scanning mode. The existing :func:`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::
|
|
|
|
>>> 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'])
|
|
|
|
(Contributed by Peter Åstrand.)
|
|
|
|
* The :mod:`grp`, :mod:`pwd`, and :mod:`resource` modules now return enhanced
|
|
tuples::
|
|
|
|
>>> import grp
|
|
>>> g = grp.getgrnam('amk')
|
|
>>> g.gr_name, g.gr_gid
|
|
('amk', 500)
|
|
|
|
* The :mod:`gzip` module can now handle files exceeding 2 GiB.
|
|
|
|
* The new :mod:`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 *k*, ``heap[k] <=
|
|
heap[2*k+1]`` and ``heap[k] <= heap[2*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 https://xlinux.nist.gov/dads//HTML/priorityque.html for more
|
|
information about the priority queue data structure.)
|
|
|
|
The :mod:`heapq` module provides :func:`heappush` and :func:`heappop` functions
|
|
for adding and removing items while maintaining the heap property on top of some
|
|
other mutable Python sequence type. Here's an example that uses a Python list::
|
|
|
|
>>> 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]
|
|
|
|
(Contributed by Kevin O'Connor.)
|
|
|
|
* The IDLE integrated development environment has been updated using the code
|
|
from the IDLEfork project (https://idlefork.sourceforge.net). The most notable feature is
|
|
that the code being developed is now executed in a subprocess, meaning that
|
|
there's no longer any need for manual ``reload()`` operations. IDLE's core code
|
|
has been incorporated into the standard library as the :mod:`idlelib` package.
|
|
|
|
* The :mod:`imaplib` module now supports IMAP over SSL. (Contributed by Piers
|
|
Lauder and Tino Lange.)
|
|
|
|
* The :mod:`itertools` contains a number of useful functions for use with
|
|
iterators, inspired by various functions provided by the ML and Haskell
|
|
languages. For example, ``itertools.ifilter(predicate, iterator)`` returns all
|
|
elements in the iterator for which the function :func:`predicate` returns
|
|
:const:`True`, and ``itertools.repeat(obj, N)`` returns ``obj`` *N* times.
|
|
There are a number of other functions in the module; see the package's reference
|
|
documentation for details.
|
|
(Contributed by Raymond Hettinger.)
|
|
|
|
* Two new functions in the :mod:`math` module, ``degrees(rads)`` and
|
|
``radians(degs)``, convert between radians and degrees. Other functions in
|
|
the :mod:`math` module such as :func:`math.sin` and :func:`math.cos` have always
|
|
required input values measured in radians. Also, an optional *base* argument
|
|
was added to :func:`math.log` to make it easier to compute logarithms for bases
|
|
other than ``e`` and ``10``. (Contributed by Raymond Hettinger.)
|
|
|
|
* Several new POSIX functions (:func:`getpgid`, :func:`killpg`, :func:`lchown`,
|
|
:func:`loadavg`, :func:`major`, :func:`makedev`, :func:`minor`, and
|
|
:func:`mknod`) were added to the :mod:`posix` module that underlies the
|
|
:mod:`os` module. (Contributed by Gustavo Niemeyer, Geert Jansen, and Denis S.
|
|
Otkidach.)
|
|
|
|
* In the :mod:`os` module, the :func:`\*stat` family of functions can now report
|
|
fractions of a second in a timestamp. Such time stamps are represented as
|
|
floats, similar to the value returned by :func:`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 :func:`os.stat_float_times` is invoked to enable
|
|
float return values::
|
|
|
|
>>> os.stat("/tmp").st_mtime
|
|
1034791200
|
|
>>> os.stat_float_times(True)
|
|
>>> os.stat("/tmp").st_mtime
|
|
1034791200.6335014
|
|
|
|
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.
|
|
|
|
* The :mod:`optparse` module contains a new parser for command-line arguments
|
|
that can convert option values to a particular Python type and will
|
|
automatically generate a usage message. See the following section for more
|
|
details.
|
|
|
|
* The old and never-documented :mod:`linuxaudiodev` module has been deprecated,
|
|
and a new version named :mod:`!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.)
|
|
|
|
* The new :mod:`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-André Lemburg.)
|
|
|
|
* The parser objects provided by the :mod:`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
|
|
:attr:`buffer_text` attribute to :const:`True` will enable buffering.
|
|
|
|
* The ``sample(population, k)`` function was added to the :mod:`random`
|
|
module. *population* is a sequence or :class:`xrange` object containing the
|
|
elements of a population, and :func:`sample` chooses *k* elements from the
|
|
population without replacing chosen elements. *k* can be any value up to
|
|
``len(population)``. For example::
|
|
|
|
>>> 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]
|
|
|
|
The :mod:`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.)
|
|
|
|
* The :mod:`readline` module also gained a number of new functions:
|
|
:func:`get_history_item`, :func:`get_current_history_length`, and
|
|
:func:`redisplay`.
|
|
|
|
* The :mod:`rexec` and :mod:`Bastion` modules have been declared dead, and
|
|
attempts to import them will fail with a :exc:`RuntimeError`. New-style classes
|
|
provide new ways to break out of the restricted execution environment provided
|
|
by :mod:`rexec`, and no one has interest in fixing them or time to do so. If
|
|
you have applications using :mod:`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 :mod:`rexec` module in those versions. To
|
|
repeat: if you're using :mod:`rexec`, stop using it immediately.)
|
|
|
|
* The :mod:`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.
|
|
|
|
* The :mod:`shutil` module gained a ``move(src, dest)`` function that
|
|
recursively moves a file or directory to a new location.
|
|
|
|
* Support for more advanced POSIX signal handling was added to the :mod:`signal`
|
|
but then removed again as it proved impossible to make it work reliably across
|
|
platforms.
|
|
|
|
* The :mod:`socket` module now supports timeouts. You can call the
|
|
``settimeout(t)`` method on a socket object to set a timeout of *t* seconds.
|
|
Subsequent socket operations that take longer than *t* seconds to complete will
|
|
abort and raise a :exc:`socket.timeout` exception.
|
|
|
|
The original timeout implementation was by Tim O'Malley. Michael Gilfix
|
|
integrated it into the Python :mod:`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.)
|
|
|
|
* On Windows, the :mod:`socket` module now ships with Secure Sockets Layer
|
|
(SSL) support.
|
|
|
|
* The value of the C :c:macro:`PYTHON_API_VERSION` macro is now exposed at the
|
|
Python level as ``sys.api_version``. The current exception can be cleared by
|
|
calling the new :func:`sys.exc_clear` function.
|
|
|
|
* The new :mod:`tarfile` module allows reading from and writing to
|
|
:program:`tar`\ -format archive files. (Contributed by Lars Gustäbel.)
|
|
|
|
* The new :mod:`textwrap` module contains functions for wrapping strings
|
|
containing paragraphs of text. The ``wrap(text, width)`` function takes a
|
|
string and returns a list containing the text split into lines of no more than
|
|
the chosen width. The ``fill(text, width)`` function returns a single
|
|
string, reformatted to fit into lines no longer than the chosen width. (As you
|
|
can guess, :func:`fill` is built on top of :func:`wrap`. For example::
|
|
|
|
>>> 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.
|
|
>>>
|
|
|
|
The module also contains a :class:`TextWrapper` class that actually implements
|
|
the text wrapping strategy. Both the :class:`TextWrapper` class and the
|
|
:func:`wrap` and :func:`fill` functions support a number of additional keyword
|
|
arguments for fine-tuning the formatting; consult the module's documentation
|
|
for details. (Contributed by Greg Ward.)
|
|
|
|
* The :mod:`thread` and :mod:`threading` modules now have companion modules,
|
|
:mod:`dummy_thread` and :mod:`dummy_threading`, that provide a do-nothing
|
|
implementation of the :mod:`thread` module's interface for platforms where
|
|
threads are not supported. The intention is to simplify thread-aware modules
|
|
(ones that *don't* rely on threads to run) by putting the following code at the
|
|
top::
|
|
|
|
try:
|
|
import threading as _threading
|
|
except ImportError:
|
|
import dummy_threading as _threading
|
|
|
|
In this example, :mod:`_threading` is used as the module name to make it clear
|
|
that the module being used is not necessarily the actual :mod:`threading`
|
|
module. Code can call functions and use classes in :mod:`_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.
|
|
|
|
* The :mod:`time` module's :func:`strptime` function has long been an annoyance
|
|
because it uses the platform C library's :func:`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.
|
|
|
|
* The new :mod:`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 :func:`unicode` function::
|
|
|
|
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]
|
|
|
|
* The :mod:`!Tix` module has received various bug fixes and updates for the
|
|
current version of the Tix package.
|
|
|
|
* The :mod:`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, :mod:`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 :mod:`Tkinter` will now raise an exception on such an
|
|
access so that you can at least find out about the problem. See
|
|
https://mail.python.org/pipermail/python-dev/2002-December/031107.html for a more
|
|
detailed explanation of this change. (Implemented by Martin von Löwis.)
|
|
|
|
* Calling Tcl methods through :mod:`_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 :meth:`wantobjects` method of :class:`tkapp` objects.
|
|
|
|
When using :mod:`_tkinter` through the :mod:`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 :attr:`wantobjects` variable in the :mod:`Tkinter` module to false before
|
|
creating the first :class:`tkapp` object. ::
|
|
|
|
import Tkinter
|
|
Tkinter.wantobjects = 0
|
|
|
|
Any breakage caused by this change should be reported as a bug.
|
|
|
|
* The :mod:`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 :mod:`shelve`
|
|
module.
|
|
|
|
Adding the mix-in as a superclass provides the full dictionary interface
|
|
whenever the class defines :meth:`__getitem__`, :meth:`__setitem__`,
|
|
:meth:`__delitem__`, and :meth:`keys`. For example::
|
|
|
|
>>> 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']
|
|
|
|
(Contributed by Raymond Hettinger.)
|
|
|
|
* The DOM implementation in :mod:`xml.dom.minidom` can now generate XML output
|
|
in a particular encoding by providing an optional encoding argument to the
|
|
:meth:`toxml` and :meth:`toprettyxml` methods of DOM nodes.
|
|
|
|
* The :mod:`xmlrpclib` module now supports an XML-RPC extension for handling nil
|
|
data values such as Python's ``None``. Nil values are always supported on
|
|
unmarshalling an XML-RPC response. To generate requests containing ``None``,
|
|
you must supply a true value for the *allow_none* parameter when creating a
|
|
:class:`Marshaller` instance.
|
|
|
|
* The new :mod:`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.)
|
|
|
|
* 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. ::
|
|
|
|
>{}>{}> u"www.Alliancefrançaise.nu".encode("idna")
|
|
'www.xn--alliancefranaise-npb.nu'
|
|
|
|
The :mod:`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 :mod:`httplib` and :mod:`ftplib`)
|
|
also support Unicode host names; :mod:`httplib` also sends HTTP ``Host``
|
|
headers using the ACE version of the domain name. :mod:`urllib` supports
|
|
Unicode URLs with non-ASCII host names as long as the ``path`` part of the URL
|
|
is ASCII only.
|
|
|
|
To implement this change, the :mod:`stringprep` module, the ``mkstringprep``
|
|
tool and the ``punycode`` encoding have been added.
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
Date/Time Type
|
|
--------------
|
|
|
|
Date and time types suitable for expressing timestamps were added as the
|
|
:mod:`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:`~datetime.time`, consisting of hour, minute, and second; and :class:`~datetime.datetime`,
|
|
which contains all the attributes of both :class:`date` and :class:`~datetime.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:`~datetime.time` by either supplying
|
|
keyword arguments to the appropriate constructor, e.g.
|
|
``datetime.date(year=1972, month=10, day=15)``, or by using one of a number of
|
|
class methods. For example, the :meth:`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::
|
|
|
|
>>> 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'
|
|
|
|
The :meth:`replace` method allows modifying one or more fields of a
|
|
:class:`date` or :class:`~datetime.datetime` instance, returning a new instance::
|
|
|
|
>>> 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)
|
|
>>>
|
|
|
|
Instances can be compared, hashed, and converted to strings (the result is the
|
|
same as that of :meth:`isoformat`). :class:`date` and :class:`~datetime.datetime`
|
|
instances can be subtracted from each other, and added to :class:`timedelta`
|
|
instances. The largest missing feature is that there's no standard library
|
|
support for parsing strings and getting back a :class:`date` or
|
|
:class:`~datetime.datetime`.
|
|
|
|
For more information, refer to the module's reference documentation.
|
|
(Contributed by Tim Peters.)
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
The optparse Module
|
|
-------------------
|
|
|
|
The :mod:`getopt` module provides simple parsing of command-line arguments. The
|
|
new :mod:`optparse` module (originally named Optik) provides more elaborate
|
|
command-line parsing that follows the Unix conventions, automatically creates
|
|
the output for :option:`!--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. ::
|
|
|
|
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')
|
|
|
|
Parsing a command line is then done by calling the :meth:`parse_args` method. ::
|
|
|
|
options, args = op.parse_args(sys.argv[1:])
|
|
print options
|
|
print args
|
|
|
|
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.
|
|
|
|
.. code-block:: shell-session
|
|
|
|
$ ./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}>
|
|
[]
|
|
$
|
|
|
|
The help message is automatically generated for you:
|
|
|
|
.. code-block:: shell-session
|
|
|
|
$ ./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
|
|
$
|
|
|
|
See the module's documentation for more details.
|
|
|
|
|
|
Optik was written by Greg Ward, with suggestions from the readers of the Getopt
|
|
SIG.
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
.. _section-pymalloc:
|
|
|
|
Pymalloc: A Specialized Object Allocator
|
|
========================================
|
|
|
|
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
|
|
:c:func:`malloc` and to have less memory overhead for allocation patterns typical
|
|
of Python programs. The allocator uses C's :c:func:`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
|
|
:option:`!--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 :option:`!--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 :c:func:`malloc` and :c:func:`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
|
|
:c:func:`malloc` and :c:func:`free` any more, and calling the wrong function to
|
|
free memory may get you a core dump. For example, if memory was allocated using
|
|
:c:func:`PyObject_Malloc`, it has to be freed using :c:func:`PyObject_Free`, not
|
|
:c:func:`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.
|
|
|
|
* To allocate and free an undistinguished chunk of memory use the "raw memory"
|
|
family: :c:func:`PyMem_Malloc`, :c:func:`PyMem_Realloc`, and :c:func:`PyMem_Free`.
|
|
|
|
* The "object memory" family is the interface to the pymalloc facility described
|
|
above and is biased towards a large number of "small" allocations:
|
|
:c:func:`PyObject_Malloc`, :c:func:`PyObject_Realloc`, and :c:func:`PyObject_Free`.
|
|
|
|
* To allocate and free Python objects, use the "object" family
|
|
:c:macro:`PyObject_New`, :c:macro:`PyObject_NewVar`, and :c:func:`PyObject_Del`.
|
|
|
|
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
|
|
:option:`!--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.
|
|
|
|
|
|
.. seealso::
|
|
|
|
https://hg.python.org/cpython/file/default/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 python.org SVN browser.
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
Build and C API Changes
|
|
=======================
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Changes to Python's build process and to the C API include:
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* The cycle detection implementation used by the garbage collection has proven
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to be stable, so it's now been made mandatory. You can no longer compile Python
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without it, and the :option:`!--with-cycle-gc` switch to :program:`configure` has
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been removed.
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* Python can now optionally be built as a shared library
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(:file:`libpython2.3.so`) by supplying :option:`!--enable-shared` when running
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Python's :program:`configure` script. (Contributed by Ondrej Palkovsky.)
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* The :c:macro:`!DL_EXPORT` and :c:macro:`!DL_IMPORT` macros are now deprecated.
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Initialization functions for Python extension modules should now be declared
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using the new macro :c:macro:`PyMODINIT_FUNC`, while the Python core will
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generally use the :c:macro:`!PyAPI_FUNC` and :c:macro:`!PyAPI_DATA` macros.
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* The interpreter can be compiled without any docstrings for the built-in
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functions and modules by supplying :option:`!--without-doc-strings` to the
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:program:`configure` script. This makes the Python executable about 10% smaller,
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but will also mean that you can't get help for Python's built-ins. (Contributed
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by Gustavo Niemeyer.)
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* The :c:func:`!PyArg_NoArgs` macro is now deprecated, and code that uses it
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should be changed. For Python 2.2 and later, the method definition table can
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specify the :c:macro:`METH_NOARGS` flag, signalling that there are no arguments,
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and the argument checking can then be removed. If compatibility with pre-2.2
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versions of Python is important, the code could use ``PyArg_ParseTuple(args,
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"")`` instead, but this will be slower than using :c:macro:`METH_NOARGS`.
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* :c:func:`PyArg_ParseTuple` accepts new format characters for various sizes of
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unsigned integers: ``B`` for :c:expr:`unsigned char`, ``H`` for :c:expr:`unsigned
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short int`, ``I`` for :c:expr:`unsigned int`, and ``K`` for :c:expr:`unsigned
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long long`.
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* A new function, ``PyObject_DelItemString(mapping, char *key)`` was added
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as shorthand for ``PyObject_DelItem(mapping, PyString_New(key))``.
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* File objects now manage their internal string buffer differently, increasing
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it exponentially when needed. This results in the benchmark tests in
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:file:`Lib/test/test_bufio.py` speeding up considerably (from 57 seconds to 1.7
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seconds, according to one measurement).
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* It's now possible to define class and static methods for a C extension type by
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setting either the :c:macro:`METH_CLASS` or :c:macro:`METH_STATIC` flags in a
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method's :c:type:`PyMethodDef` structure.
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* Python now includes a copy of the Expat XML parser's source code, removing any
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dependence on a system version or local installation of Expat.
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* If you dynamically allocate type objects in your extension, you should be
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aware of a change in the rules relating to the :attr:`__module__` and
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:attr:`~definition.__name__` attributes. In summary, you will want to ensure the type's
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dictionary contains a ``'__module__'`` key; making the module name the part of
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the type name leading up to the final period will no longer have the desired
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effect. For more detail, read the API reference documentation or the source.
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.. ======================================================================
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Port-Specific Changes
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---------------------
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Support for a port to IBM's OS/2 using the EMX runtime environment was merged
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into the main Python source tree. EMX is a POSIX emulation layer over the OS/2
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system APIs. The Python port for EMX tries to support all the POSIX-like
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capability exposed by the EMX runtime, and mostly succeeds; :func:`fork` and
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:func:`fcntl` are restricted by the limitations of the underlying emulation
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layer. The standard OS/2 port, which uses IBM's Visual Age compiler, also
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gained support for case-sensitive import semantics as part of the integration of
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the EMX port into CVS. (Contributed by Andrew MacIntyre.)
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On MacOS, most toolbox modules have been weaklinked to improve backward
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compatibility. This means that modules will no longer fail to load if a single
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routine is missing on the current OS version. Instead calling the missing
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routine will raise an exception. (Contributed by Jack Jansen.)
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The RPM spec files, found in the :file:`Misc/RPM/` directory in the Python
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source distribution, were updated for 2.3. (Contributed by Sean Reifschneider.)
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Other new platforms now supported by Python include AtheOS
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(http://www.atheos.cx/), GNU/Hurd, and OpenVMS.
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.. ======================================================================
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.. _23section-other:
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Other Changes and Fixes
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=======================
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As usual, there were a bunch of other improvements and bugfixes scattered
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throughout the source tree. A search through the CVS change logs finds there
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were 523 patches applied and 514 bugs fixed between Python 2.2 and 2.3. Both
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figures are likely to be underestimates.
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Some of the more notable changes are:
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* If the :envvar:`PYTHONINSPECT` environment variable is set, the Python
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interpreter will enter the interactive prompt after running a Python program, as
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if Python had been invoked with the :option:`-i` option. The environment
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variable can be set before running the Python interpreter, or it can be set by
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the Python program as part of its execution.
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* The :file:`regrtest.py` script now provides a way to allow "all resources
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except *foo*." A resource name passed to the :option:`!-u` option can now be
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prefixed with a hyphen (``'-'``) to mean "remove this resource." For example,
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the option '``-uall,-bsddb``' could be used to enable the use of all resources
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except ``bsddb``.
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* The tools used to build the documentation now work under Cygwin as well as
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Unix.
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* The ``SET_LINENO`` opcode has been removed. Back in the mists of time, this
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opcode was needed to produce line numbers in tracebacks and support trace
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functions (for, e.g., :mod:`pdb`). Since Python 1.5, the line numbers in
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tracebacks have been computed using a different mechanism that works with
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"python -O". For Python 2.3 Michael Hudson implemented a similar scheme to
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determine when to call the trace function, removing the need for ``SET_LINENO``
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entirely.
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It would be difficult to detect any resulting difference from Python code, apart
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from a slight speed up when Python is run without :option:`-O`.
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C extensions that access the :attr:`f_lineno` field of frame objects should
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instead call ``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
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versions of Python.
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A nifty new feature is that trace functions can now assign to the
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:attr:`f_lineno` attribute of frame objects, changing the line that will be
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executed next. A ``jump`` command has been added to the :mod:`pdb` debugger
|
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taking advantage of this new feature. (Implemented by Richie Hindle.)
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.. ======================================================================
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Porting to Python 2.3
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=====================
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This section lists previously described changes that may require changes to your
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code:
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* :keyword:`yield` is now always a keyword; if it's used as a variable name in
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your code, a different name must be chosen.
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* For strings *X* and *Y*, ``X in Y`` now works if *X* is more than one
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character long.
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* The :func:`int` type constructor will now return a long integer instead of
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|
raising an :exc:`OverflowError` when a string or floating-point number is too
|
|
large to fit into an integer.
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* 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.
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* Calling Tcl methods through :mod:`_tkinter` no longer returns only strings.
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Instead, if Tcl returns other objects those objects are converted to their
|
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Python equivalent, if one exists, or wrapped with a :class:`_tkinter.Tcl_Obj`
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object if no Python equivalent exists.
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* Large octal and hex literals such as ``0xffffffff`` now trigger a
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:exc:`FutureWarning`. Currently they're stored as 32-bit numbers and result in a
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negative value, but in Python 2.4 they'll become positive long integers.
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There are a few ways to fix this warning. If you really need a positive number,
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just add an ``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 ``~(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
|
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write ``0xffffffffL &~(1L<<31)``.
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* You can no longer disable assertions by assigning to ``__debug__``.
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* The Distutils :func:`setup` function has gained various new keyword arguments
|
|
such as *depends*. Old versions of the Distutils will abort if passed unknown
|
|
keywords. A solution is to check for the presence of the new
|
|
:func:`get_distutil_options` function in your :file:`setup.py` and only uses the
|
|
new keywords with a version of the Distutils that supports them::
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|
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from distutils import core
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kw = {'sources': 'foo.c', ...}
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if hasattr(core, 'get_distutil_options'):
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kw['depends'] = ['foo.h']
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ext = Extension(**kw)
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* Using ``None`` as a variable name will now result in a :exc:`SyntaxWarning`
|
|
warning.
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|
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* Names of extension types defined by the modules included with Python now
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|
contain the module and a ``'.'`` in front of the type name.
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.. ======================================================================
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.. _23acks:
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|
|
Acknowledgements
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|
================
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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
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|
Daniels, Fred L. Drake, Jr., David Fraser, Kelly Gerber, Raymond Hettinger,
|
|
Michael Hudson, Chris Lambert, Detlef Lannert, Martin von Löwis, Andrew
|
|
MacIntyre, Lalo Martins, Chad Netzer, Gustavo Niemeyer, Neal Norwitz, Hans
|
|
Nowak, Chris Reedy, Francesco Ricciardi, Vinay Sajip, Neil Schemenauer, Roman
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|
Suzi, Jason Tishler, Just van Rossum.
|