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36 KiB
ReStructuredText
****************************
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What's New in Python 2.1
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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: whatsnew21.tex 50964 2006-07-30 03:03:43Z fred.drake $
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Introduction
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============
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This article explains the new features in Python 2.1. While there aren't as
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many changes in 2.1 as there were in Python 2.0, there are still some pleasant
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surprises in store. 2.1 is the first release to be steered through the use of
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Python Enhancement Proposals, or PEPs, so most of the sizable changes have
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accompanying PEPs that provide more complete documentation and a design
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rationale for the change. This article doesn't attempt to document the new
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features completely, but simply provides an overview of the new features for
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Python programmers. Refer to the Python 2.1 documentation, or to the specific
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PEP, for more details about any new feature that particularly interests you.
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One recent goal of the Python development team has been to accelerate the pace
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of new releases, with a new release coming every 6 to 9 months. 2.1 is the first
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release to come out at this faster pace, with the first alpha appearing in
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January, 3 months after the final version of 2.0 was released.
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The final release of Python 2.1 was made on April 17, 2001.
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.. ======================================================================
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PEP 227: Nested Scopes
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======================
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The largest change in Python 2.1 is to Python's scoping rules. In Python 2.0,
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at any given time there are at most three namespaces used to look up variable
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names: local, module-level, and the built-in namespace. This often surprised
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people because it didn't match their intuitive expectations. For example, a
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nested recursive function definition doesn't work::
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def f():
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...
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def g(value):
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...
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return g(value-1) + 1
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...
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The function :func:`g` will always raise a :exc:`NameError` exception, because
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the binding of the name ``g`` isn't in either its local namespace or in the
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module-level namespace. This isn't much of a problem in practice (how often do
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you recursively define interior functions like this?), but this also made using
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the :keyword:`lambda` statement clumsier, and this was a problem in practice.
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In code which uses :keyword:`lambda` you can often find local variables being
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copied by passing them as the default values of arguments. ::
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def find(self, name):
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"Return list of any entries equal to 'name'"
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L = filter(lambda x, name=name: x == name,
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self.list_attribute)
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return L
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The readability of Python code written in a strongly functional style suffers
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greatly as a result.
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The most significant change to Python 2.1 is that static scoping has been added
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to the language to fix this problem. As a first effect, the ``name=name``
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default argument is now unnecessary in the above example. Put simply, when a
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given variable name is not assigned a value within a function (by an assignment,
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or the :keyword:`def`, :keyword:`class`, or :keyword:`import` statements),
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references to the variable will be looked up in the local namespace of the
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enclosing scope. A more detailed explanation of the rules, and a dissection of
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the implementation, can be found in the PEP.
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This change may cause some compatibility problems for code where the same
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variable name is used both at the module level and as a local variable within a
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function that contains further function definitions. This seems rather unlikely
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though, since such code would have been pretty confusing to read in the first
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place.
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One side effect of the change is that the ``from module import *`` and
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:keyword:`exec` statements have been made illegal inside a function scope under
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certain conditions. The Python reference manual has said all along that ``from
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module import *`` is only legal at the top level of a module, but the CPython
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interpreter has never enforced this before. As part of the implementation of
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nested scopes, the compiler which turns Python source into bytecodes has to
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generate different code to access variables in a containing scope. ``from
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module import *`` and :keyword:`exec` make it impossible for the compiler to
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figure this out, because they add names to the local namespace that are
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unknowable at compile time. Therefore, if a function contains function
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definitions or :keyword:`lambda` expressions with free variables, the compiler
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will flag this by raising a :exc:`SyntaxError` exception.
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To make the preceding explanation a bit clearer, here's an example::
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x = 1
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def f():
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# The next line is a syntax error
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exec 'x=2'
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def g():
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return x
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Line 4 containing the :keyword:`exec` statement is a syntax error, since
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:keyword:`exec` would define a new local variable named ``x`` whose value should
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be accessed by :func:`g`.
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This shouldn't be much of a limitation, since :keyword:`exec` is rarely used in
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most Python code (and when it is used, it's often a sign of a poor design
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anyway).
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Compatibility concerns have led to nested scopes being introduced gradually; in
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Python 2.1, they aren't enabled by default, but can be turned on within a module
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by using a future statement as described in PEP 236. (See the following section
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for further discussion of PEP 236.) In Python 2.2, nested scopes will become
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the default and there will be no way to turn them off, but users will have had
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all of 2.1's lifetime to fix any breakage resulting from their introduction.
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.. seealso::
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:pep:`227` - Statically Nested Scopes
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Written and implemented by Jeremy Hylton.
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.. ======================================================================
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PEP 236: __future__ Directives
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==============================
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The reaction to nested scopes was widespread concern about the dangers of
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breaking code with the 2.1 release, and it was strong enough to make the
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Pythoneers take a more conservative approach. This approach consists of
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introducing a convention for enabling optional functionality in release N that
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will become compulsory in release N+1.
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The syntax uses a ``from...import`` statement using the reserved module name
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:mod:`__future__`. Nested scopes can be enabled by the following statement::
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from __future__ import nested_scopes
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While it looks like a normal :keyword:`import` statement, it's not; there are
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strict rules on where such a future statement can be put. They can only be at
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the top of a module, and must precede any Python code or regular
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:keyword:`import` statements. This is because such statements can affect how
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the Python bytecode compiler parses code and generates bytecode, so they must
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precede any statement that will result in bytecodes being produced.
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.. seealso::
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:pep:`236` - Back to the :mod:`__future__`
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Written by Tim Peters, and primarily implemented by Jeremy Hylton.
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.. ======================================================================
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PEP 207: Rich Comparisons
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=========================
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In earlier versions, Python's support for implementing comparisons on user-
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defined classes and extension types was quite simple. Classes could implement a
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:meth:`__cmp__` method that was given two instances of a class, and could only
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return 0 if they were equal or +1 or -1 if they weren't; the method couldn't
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raise an exception or return anything other than a Boolean value. Users of
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Numeric Python often found this model too weak and restrictive, because in the
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number-crunching programs that numeric Python is used for, it would be more
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useful to be able to perform elementwise comparisons of two matrices, returning
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a matrix containing the results of a given comparison for each element. If the
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two matrices are of different sizes, then the compare has to be able to raise an
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exception to signal the error.
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In Python 2.1, rich comparisons were added in order to support this need.
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Python classes can now individually overload each of the ``<``, ``<=``, ``>``,
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``>=``, ``==``, and ``!=`` operations. The new magic method names are:
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+-----------+----------------+
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| Operation | Method name |
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+===========+================+
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| ``<`` | :meth:`__lt__` |
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+-----------+----------------+
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| ``<=`` | :meth:`__le__` |
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+-----------+----------------+
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| ``>`` | :meth:`__gt__` |
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+-----------+----------------+
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| ``>=`` | :meth:`__ge__` |
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+-----------+----------------+
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| ``==`` | :meth:`__eq__` |
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+-----------+----------------+
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| ``!=`` | :meth:`__ne__` |
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+-----------+----------------+
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(The magic methods are named after the corresponding Fortran operators ``.LT.``.
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``.LE.``, &c. Numeric programmers are almost certainly quite familiar with
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these names and will find them easy to remember.)
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Each of these magic methods is of the form ``method(self, other)``, where
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``self`` will be the object on the left-hand side of the operator, while
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``other`` will be the object on the right-hand side. For example, the
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expression ``A < B`` will cause ``A.__lt__(B)`` to be called.
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Each of these magic methods can return anything at all: a Boolean, a matrix, a
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list, or any other Python object. Alternatively they can raise an exception if
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the comparison is impossible, inconsistent, or otherwise meaningless.
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The built-in :func:`cmp(A,B)` function can use the rich comparison machinery,
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and now accepts an optional argument specifying which comparison operation to
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use; this is given as one of the strings ``"<"``, ``"<="``, ``">"``, ``">="``,
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``"=="``, or ``"!="``. If called without the optional third argument,
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:func:`cmp` will only return -1, 0, or +1 as in previous versions of Python;
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otherwise it will call the appropriate method and can return any Python object.
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There are also corresponding changes of interest to C programmers; there's a new
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slot ``tp_richcmp`` in type objects and an API for performing a given rich
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comparison. I won't cover the C API here, but will refer you to PEP 207, or to
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2.1's C API documentation, for the full list of related functions.
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.. seealso::
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:pep:`207` - Rich Comparisions
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Written by Guido van Rossum, heavily based on earlier work by David Ascher, and
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implemented by Guido van Rossum.
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.. ======================================================================
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PEP 230: Warning Framework
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==========================
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Over its 10 years of existence, Python has accumulated a certain number of
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obsolete modules and features along the way. It's difficult to know when a
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feature is safe to remove, since there's no way of knowing how much code uses it
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--- perhaps no programs depend on the feature, or perhaps many do. To enable
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removing old features in a more structured way, a warning framework was added.
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When the Python developers want to get rid of a feature, it will first trigger a
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warning in the next version of Python. The following Python version can then
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drop the feature, and users will have had a full release cycle to remove uses of
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the old feature.
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Python 2.1 adds the warning framework to be used in this scheme. It adds a
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:mod:`warnings` module that provide functions to issue warnings, and to filter
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out warnings that you don't want to be displayed. Third-party modules can also
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use this framework to deprecate old features that they no longer wish to
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support.
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For example, in Python 2.1 the :mod:`regex` module is deprecated, so importing
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it causes a warning to be printed::
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>>> import regex
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__main__:1: DeprecationWarning: the regex module
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is deprecated; please use the re module
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>>>
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Warnings can be issued by calling the :func:`warnings.warn` function::
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warnings.warn("feature X no longer supported")
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The first parameter is the warning message; an additional optional parameters
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can be used to specify a particular warning category.
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Filters can be added to disable certain warnings; a regular expression pattern
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can be applied to the message or to the module name in order to suppress a
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warning. For example, you may have a program that uses the :mod:`regex` module
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and not want to spare the time to convert it to use the :mod:`re` module right
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now. The warning can be suppressed by calling ::
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import warnings
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warnings.filterwarnings(action = 'ignore',
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message='.*regex module is deprecated',
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category=DeprecationWarning,
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module = '__main__')
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This adds a filter that will apply only to warnings of the class
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:class:`DeprecationWarning` triggered in the :mod:`__main__` module, and applies
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a regular expression to only match the message about the :mod:`regex` module
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being deprecated, and will cause such warnings to be ignored. Warnings can also
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be printed only once, printed every time the offending code is executed, or
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turned into exceptions that will cause the program to stop (unless the
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exceptions are caught in the usual way, of course).
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Functions were also added to Python's C API for issuing warnings; refer to PEP
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230 or to Python's API documentation for the details.
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.. seealso::
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:pep:`5` - Guidelines for Language Evolution
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Written by Paul Prescod, to specify procedures to be followed when removing old
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features from Python. The policy described in this PEP hasn't been officially
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adopted, but the eventual policy probably won't be too different from Prescod's
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proposal.
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:pep:`230` - Warning Framework
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Written and implemented by Guido van Rossum.
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.. ======================================================================
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PEP 229: New Build System
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=========================
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When compiling Python, the user had to go in and edit the :file:`Modules/Setup`
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file in order to enable various additional modules; the default set is
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relatively small and limited to modules that compile on most Unix platforms.
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This means that on Unix platforms with many more features, most notably Linux,
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Python installations often don't contain all useful modules they could.
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Python 2.0 added the Distutils, a set of modules for distributing and installing
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extensions. In Python 2.1, the Distutils are used to compile much of the
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standard library of extension modules, autodetecting which ones are supported on
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the current machine. It's hoped that this will make Python installations easier
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and more featureful.
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Instead of having to edit the :file:`Modules/Setup` file in order to enable
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modules, a :file:`setup.py` script in the top directory of the Python source
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distribution is run at build time, and attempts to discover which modules can be
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enabled by examining the modules and header files on the system. If a module is
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configured in :file:`Modules/Setup`, the :file:`setup.py` script won't attempt
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to compile that module and will defer to the :file:`Modules/Setup` file's
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contents. This provides a way to specific any strange command-line flags or
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libraries that are required for a specific platform.
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In another far-reaching change to the build mechanism, Neil Schemenauer
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restructured things so Python now uses a single makefile that isn't recursive,
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instead of makefiles in the top directory and in each of the :file:`Python/`,
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:file:`Parser/`, :file:`Objects/`, and :file:`Modules/` subdirectories. This
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makes building Python faster and also makes hacking the Makefiles clearer and
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simpler.
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.. seealso::
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:pep:`229` - Using Distutils to Build Python
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Written and implemented by A.M. Kuchling.
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.. ======================================================================
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PEP 205: Weak References
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========================
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Weak references, available through the :mod:`weakref` module, are a minor but
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useful new data type in the Python programmer's toolbox.
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Storing a reference to an object (say, in a dictionary or a list) has the side
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effect of keeping that object alive forever. There are a few specific cases
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where this behaviour is undesirable, object caches being the most common one,
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and another being circular references in data structures such as trees.
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For example, consider a memoizing function that caches the results of another
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function :func:`f(x)` by storing the function's argument and its result in a
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dictionary::
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_cache = {}
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def memoize(x):
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if _cache.has_key(x):
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return _cache[x]
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retval = f(x)
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# Cache the returned object
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_cache[x] = retval
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return retval
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This version works for simple things such as integers, but it has a side effect;
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the ``_cache`` dictionary holds a reference to the return values, so they'll
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never be deallocated until the Python process exits and cleans up This isn't
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very noticeable for integers, but if :func:`f` returns an object, or a data
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structure that takes up a lot of memory, this can be a problem.
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Weak references provide a way to implement a cache that won't keep objects alive
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beyond their time. If an object is only accessible through weak references, the
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object will be deallocated and the weak references will now indicate that the
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object it referred to no longer exists. A weak reference to an object *obj* is
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created by calling ``wr = weakref.ref(obj)``. The object being referred to is
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returned by calling the weak reference as if it were a function: ``wr()``. It
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will return the referenced object, or ``None`` if the object no longer exists.
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This makes it possible to write a :func:`memoize` function whose cache doesn't
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keep objects alive, by storing weak references in the cache. ::
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_cache = {}
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def memoize(x):
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if _cache.has_key(x):
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obj = _cache[x]()
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# If weak reference object still exists,
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# return it
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if obj is not None: return obj
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retval = f(x)
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# Cache a weak reference
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_cache[x] = weakref.ref(retval)
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return retval
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The :mod:`weakref` module also allows creating proxy objects which behave like
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weak references --- an object referenced only by proxy objects is deallocated --
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but instead of requiring an explicit call to retrieve the object, the proxy
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transparently forwards all operations to the object as long as the object still
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exists. If the object is deallocated, attempting to use a proxy will cause a
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:exc:`weakref.ReferenceError` exception to be raised. ::
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proxy = weakref.proxy(obj)
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proxy.attr # Equivalent to obj.attr
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proxy.meth() # Equivalent to obj.meth()
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del obj
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proxy.attr # raises weakref.ReferenceError
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.. seealso::
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:pep:`205` - Weak References
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Written and implemented by Fred L. Drake, Jr.
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.. ======================================================================
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PEP 232: Function Attributes
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============================
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In Python 2.1, functions can now have arbitrary information attached to them.
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People were often using docstrings to hold information about functions and
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methods, because the ``__doc__`` attribute was the only way of attaching any
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information to a function. For example, in the Zope Web application server,
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functions are marked as safe for public access by having a docstring, and in
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John Aycock's SPARK parsing framework, docstrings hold parts of the BNF grammar
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to be parsed. This overloading is unfortunate, since docstrings are really
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intended to hold a function's documentation; for example, it means you can't
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properly document functions intended for private use in Zope.
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Arbitrary attributes can now be set and retrieved on functions using the regular
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Python syntax::
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def f(): pass
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f.publish = 1
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f.secure = 1
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f.grammar = "A ::= B (C D)*"
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The dictionary containing attributes can be accessed as the function's
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:attr:`__dict__`. Unlike the :attr:`__dict__` attribute of class instances, in
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functions you can actually assign a new dictionary to :attr:`__dict__`, though
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the new value is restricted to a regular Python dictionary; you *can't* be
|
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tricky and set it to a :class:`UserDict` instance, or any other random object
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that behaves like a mapping.
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.. seealso::
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:pep:`232` - Function Attributes
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Written and implemented by Barry Warsaw.
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.. ======================================================================
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PEP 235: Importing Modules on Case-Insensitive Platforms
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========================================================
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Some operating systems have filesystems that are case-insensitive, MacOS and
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Windows being the primary examples; on these systems, it's impossible to
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distinguish the filenames ``FILE.PY`` and ``file.py``, even though they do store
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the file's name in its original case (they're case-preserving, too).
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In Python 2.1, the :keyword:`import` statement will work to simulate case-
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sensitivity on case-insensitive platforms. Python will now search for the first
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case-sensitive match by default, raising an :exc:`ImportError` if no such file
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is found, so ``import file`` will not import a module named ``FILE.PY``. Case-
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insensitive matching can be requested by setting the :envvar:`PYTHONCASEOK`
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environment variable before starting the Python interpreter.
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.. ======================================================================
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PEP 217: Interactive Display Hook
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|
=================================
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When using the Python interpreter interactively, the output of commands is
|
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displayed using the built-in :func:`repr` function. In Python 2.1, the variable
|
|
:func:`sys.displayhook` can be set to a callable object which will be called
|
|
instead of :func:`repr`. For example, you can set it to a special pretty-
|
|
printing function::
|
|
|
|
>>> # Create a recursive data structure
|
|
... L = [1,2,3]
|
|
>>> L.append(L)
|
|
>>> L # Show Python's default output
|
|
[1, 2, 3, [...]]
|
|
>>> # Use pprint.pprint() as the display function
|
|
... import sys, pprint
|
|
>>> sys.displayhook = pprint.pprint
|
|
>>> L
|
|
[1, 2, 3, <Recursion on list with id=135143996>]
|
|
>>>
|
|
|
|
|
|
.. seealso::
|
|
|
|
:pep:`217` - Display Hook for Interactive Use
|
|
Written and implemented by Moshe Zadka.
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
PEP 208: New Coercion Model
|
|
===========================
|
|
|
|
How numeric coercion is done at the C level was significantly modified. This
|
|
will only affect the authors of C extensions to Python, allowing them more
|
|
flexibility in writing extension types that support numeric operations.
|
|
|
|
Extension types can now set the type flag ``Py_TPFLAGS_CHECKTYPES`` in their
|
|
``PyTypeObject`` structure to indicate that they support the new coercion model.
|
|
In such extension types, the numeric slot functions can no longer assume that
|
|
they'll be passed two arguments of the same type; instead they may be passed two
|
|
arguments of differing types, and can then perform their own internal coercion.
|
|
If the slot function is passed a type it can't handle, it can indicate the
|
|
failure by returning a reference to the ``Py_NotImplemented`` singleton value.
|
|
The numeric functions of the other type will then be tried, and perhaps they can
|
|
handle the operation; if the other type also returns ``Py_NotImplemented``, then
|
|
a :exc:`TypeError` will be raised. Numeric methods written in Python can also
|
|
return ``Py_NotImplemented``, causing the interpreter to act as if the method
|
|
did not exist (perhaps raising a :exc:`TypeError`, perhaps trying another
|
|
object's numeric methods).
|
|
|
|
|
|
.. seealso::
|
|
|
|
:pep:`208` - Reworking the Coercion Model
|
|
Written and implemented by Neil Schemenauer, heavily based upon earlier work by
|
|
Marc-André Lemburg. Read this to understand the fine points of how numeric
|
|
operations will now be processed at the C level.
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
PEP 241: Metadata in Python Packages
|
|
====================================
|
|
|
|
A common complaint from Python users is that there's no single catalog of all
|
|
the Python modules in existence. T. Middleton's Vaults of Parnassus at
|
|
http://www.vex.net/parnassus/ are the largest catalog of Python modules, but
|
|
registering software at the Vaults is optional, and many people don't bother.
|
|
|
|
As a first small step toward fixing the problem, Python software packaged using
|
|
the Distutils :command:`sdist` command will include a file named
|
|
:file:`PKG-INFO` containing information about the package such as its name,
|
|
version, and author (metadata, in cataloguing terminology). PEP 241 contains
|
|
the full list of fields that can be present in the :file:`PKG-INFO` file. As
|
|
people began to package their software using Python 2.1, more and more packages
|
|
will include metadata, making it possible to build automated cataloguing systems
|
|
and experiment with them. With the result experience, perhaps it'll be possible
|
|
to design a really good catalog and then build support for it into Python 2.2.
|
|
For example, the Distutils :command:`sdist` and :command:`bdist_\*` commands
|
|
could support a :option:`upload` option that would automatically upload your
|
|
package to a catalog server.
|
|
|
|
You can start creating packages containing :file:`PKG-INFO` even if you're not
|
|
using Python 2.1, since a new release of the Distutils will be made for users of
|
|
earlier Python versions. Version 1.0.2 of the Distutils includes the changes
|
|
described in PEP 241, as well as various bugfixes and enhancements. It will be
|
|
available from the Distutils SIG at http://www.python.org/sigs/distutils-sig/.
|
|
|
|
|
|
.. seealso::
|
|
|
|
:pep:`241` - Metadata for Python Software Packages
|
|
Written and implemented by A.M. Kuchling.
|
|
|
|
:pep:`243` - Module Repository Upload Mechanism
|
|
Written by Sean Reifschneider, this draft PEP describes a proposed mechanism for
|
|
uploading Python packages to a central server.
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
New and Improved Modules
|
|
========================
|
|
|
|
* Ka-Ping Yee contributed two new modules: :mod:`inspect.py`, a module for
|
|
getting information about live Python code, and :mod:`pydoc.py`, a module for
|
|
interactively converting docstrings to HTML or text. As a bonus,
|
|
:file:`Tools/scripts/pydoc`, which is now automatically installed, uses
|
|
:mod:`pydoc.py` to display documentation given a Python module, package, or
|
|
class name. For example, ``pydoc xml.dom`` displays the following::
|
|
|
|
Python Library Documentation: package xml.dom in xml
|
|
|
|
NAME
|
|
xml.dom - W3C Document Object Model implementation for Python.
|
|
|
|
FILE
|
|
/usr/local/lib/python2.1/xml/dom/__init__.pyc
|
|
|
|
DESCRIPTION
|
|
The Python mapping of the Document Object Model is documented in the
|
|
Python Library Reference in the section on the xml.dom package.
|
|
|
|
This package contains the following modules:
|
|
...
|
|
|
|
:file:`pydoc` also includes a Tk-based interactive help browser. :file:`pydoc`
|
|
quickly becomes addictive; try it out!
|
|
|
|
* Two different modules for unit testing were added to the standard library.
|
|
The :mod:`doctest` module, contributed by Tim Peters, provides a testing
|
|
framework based on running embedded examples in docstrings and comparing the
|
|
results against the expected output. PyUnit, contributed by Steve Purcell, is a
|
|
unit testing framework inspired by JUnit, which was in turn an adaptation of
|
|
Kent Beck's Smalltalk testing framework. See http://pyunit.sourceforge.net/ for
|
|
more information about PyUnit.
|
|
|
|
* The :mod:`difflib` module contains a class, :class:`SequenceMatcher`, which
|
|
compares two sequences and computes the changes required to transform one
|
|
sequence into the other. For example, this module can be used to write a tool
|
|
similar to the Unix :program:`diff` program, and in fact the sample program
|
|
:file:`Tools/scripts/ndiff.py` demonstrates how to write such a script.
|
|
|
|
* :mod:`curses.panel`, a wrapper for the panel library, part of ncurses and of
|
|
SYSV curses, was contributed by Thomas Gellekum. The panel library provides
|
|
windows with the additional feature of depth. Windows can be moved higher or
|
|
lower in the depth ordering, and the panel library figures out where panels
|
|
overlap and which sections are visible.
|
|
|
|
* The PyXML package has gone through a few releases since Python 2.0, and Python
|
|
2.1 includes an updated version of the :mod:`xml` package. Some of the
|
|
noteworthy changes include support for Expat 1.2 and later versions, the ability
|
|
for Expat parsers to handle files in any encoding supported by Python, and
|
|
various bugfixes for SAX, DOM, and the :mod:`minidom` module.
|
|
|
|
* Ping also contributed another hook for handling uncaught exceptions.
|
|
:func:`sys.excepthook` can be set to a callable object. When an exception isn't
|
|
caught by any :keyword:`try`...\ :keyword:`except` blocks, the exception will be
|
|
passed to :func:`sys.excepthook`, which can then do whatever it likes. At the
|
|
Ninth Python Conference, Ping demonstrated an application for this hook:
|
|
printing an extended traceback that not only lists the stack frames, but also
|
|
lists the function arguments and the local variables for each frame.
|
|
|
|
* Various functions in the :mod:`time` module, such as :func:`asctime` and
|
|
:func:`localtime`, require a floating point argument containing the time in
|
|
seconds since the epoch. The most common use of these functions is to work with
|
|
the current time, so the floating point argument has been made optional; when a
|
|
value isn't provided, the current time will be used. For example, log file
|
|
entries usually need a string containing the current time; in Python 2.1,
|
|
``time.asctime()`` can be used, instead of the lengthier
|
|
``time.asctime(time.localtime(time.time()))`` that was previously required.
|
|
|
|
This change was proposed and implemented by Thomas Wouters.
|
|
|
|
* The :mod:`ftplib` module now defaults to retrieving files in passive mode,
|
|
because passive mode is more likely to work from behind a firewall. This
|
|
request came from the Debian bug tracking system, since other Debian packages
|
|
use :mod:`ftplib` to retrieve files and then don't work from behind a firewall.
|
|
It's deemed unlikely that this will cause problems for anyone, because Netscape
|
|
defaults to passive mode and few people complain, but if passive mode is
|
|
unsuitable for your application or network setup, call :meth:`set_pasv(0)` on
|
|
FTP objects to disable passive mode.
|
|
|
|
* Support for raw socket access has been added to the :mod:`socket` module,
|
|
contributed by Grant Edwards.
|
|
|
|
* The :mod:`pstats` module now contains a simple interactive statistics browser
|
|
for displaying timing profiles for Python programs, invoked when the module is
|
|
run as a script. Contributed by Eric S. Raymond.
|
|
|
|
* A new implementation-dependent function, :func:`sys._getframe([depth])`, has
|
|
been added to return a given frame object from the current call stack.
|
|
:func:`sys._getframe` returns the frame at the top of the call stack; if the
|
|
optional integer argument *depth* is supplied, the function returns the frame
|
|
that is *depth* calls below the top of the stack. For example,
|
|
``sys._getframe(1)`` returns the caller's frame object.
|
|
|
|
This function is only present in CPython, not in Jython or the .NET
|
|
implementation. Use it for debugging, and resist the temptation to put it into
|
|
production code.
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
Other Changes and Fixes
|
|
=======================
|
|
|
|
There were relatively few smaller changes made in Python 2.1 due to the shorter
|
|
release cycle. A search through the CVS change logs turns up 117 patches
|
|
applied, and 136 bugs fixed; both figures are likely to be underestimates. Some
|
|
of the more notable changes are:
|
|
|
|
* A specialized object allocator is now optionally available, that should be
|
|
faster than the system :func:`malloc` and have less memory overhead. The
|
|
allocator uses C's :func:`malloc` function to get large pools of memory, and
|
|
then fulfills smaller memory requests from these pools. It can be enabled by
|
|
providing the :option:`--with-pymalloc` option to the :program:`configure`
|
|
script; see :file:`Objects/obmalloc.c` for the implementation details.
|
|
|
|
Authors of C extension modules should test their code with the object allocator
|
|
enabled, because some incorrect code may break, causing core dumps at runtime.
|
|
There are a bunch of memory allocation functions in Python's C API that have
|
|
previously been just aliases for the C library's :func:`malloc` and
|
|
: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 :func:`malloc` and :func:`free` any more, and
|
|
calling the wrong function to free memory will get you a core dump. For
|
|
example, if memory was allocated using :func:`PyMem_New`, it has to be freed
|
|
using :func:`PyMem_Del`, not :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.
|
|
|
|
The object allocator was contributed by Vladimir Marangozov.
|
|
|
|
* The speed of line-oriented file I/O has been improved because people often
|
|
complain about its lack of speed, and because it's often been used as a naïve
|
|
benchmark. The :meth:`readline` method of file objects has therefore been
|
|
rewritten to be much faster. The exact amount of the speedup will vary from
|
|
platform to platform depending on how slow the C library's :func:`getc` was, but
|
|
is around 66%, and potentially much faster on some particular operating systems.
|
|
Tim Peters did much of the benchmarking and coding for this change, motivated by
|
|
a discussion in comp.lang.python.
|
|
|
|
A new module and method for file objects was also added, contributed by Jeff
|
|
Epler. The new method, :meth:`xreadlines`, is similar to the existing
|
|
:func:`xrange` built-in. :func:`xreadlines` returns an opaque sequence object
|
|
that only supports being iterated over, reading a line on every iteration but
|
|
not reading the entire file into memory as the existing :meth:`readlines` method
|
|
does. You'd use it like this::
|
|
|
|
for line in sys.stdin.xreadlines():
|
|
# ... do something for each line ...
|
|
...
|
|
|
|
For a fuller discussion of the line I/O changes, see the python-dev summary for
|
|
January 1-15, 2001 at http://www.python.org/dev/summary/2001-01-1.html.
|
|
|
|
* A new method, :meth:`popitem`, was added to dictionaries to enable
|
|
destructively iterating through the contents of a dictionary; this can be faster
|
|
for large dictionaries because there's no need to construct a list containing
|
|
all the keys or values. ``D.popitem()`` removes a random ``(key, value)`` pair
|
|
from the dictionary ``D`` and returns it as a 2-tuple. This was implemented
|
|
mostly by Tim Peters and Guido van Rossum, after a suggestion and preliminary
|
|
patch by Moshe Zadka.
|
|
|
|
* Modules can now control which names are imported when ``from module import *``
|
|
is used, by defining an ``__all__`` attribute containing a list of names that
|
|
will be imported. One common complaint is that if the module imports other
|
|
modules such as :mod:`sys` or :mod:`string`, ``from module import *`` will add
|
|
them to the importing module's namespace. To fix this, simply list the public
|
|
names in ``__all__``::
|
|
|
|
# List public names
|
|
__all__ = ['Database', 'open']
|
|
|
|
A stricter version of this patch was first suggested and implemented by Ben
|
|
Wolfson, but after some python-dev discussion, a weaker final version was
|
|
checked in.
|
|
|
|
* Applying :func:`repr` to strings previously used octal escapes for
|
|
non-printable characters; for example, a newline was ``'\012'``. This was a
|
|
vestigial trace of Python's C ancestry, but today octal is of very little
|
|
practical use. Ka-Ping Yee suggested using hex escapes instead of octal ones,
|
|
and using the ``\n``, ``\t``, ``\r`` escapes for the appropriate characters,
|
|
and implemented this new formatting.
|
|
|
|
* Syntax errors detected at compile-time can now raise exceptions containing the
|
|
filename and line number of the error, a pleasant side effect of the compiler
|
|
reorganization done by Jeremy Hylton.
|
|
|
|
* C extensions which import other modules have been changed to use
|
|
:func:`PyImport_ImportModule`, which means that they will use any import hooks
|
|
that have been installed. This is also encouraged for third-party extensions
|
|
that need to import some other module from C code.
|
|
|
|
* The size of the Unicode character database was shrunk by another 340K thanks
|
|
to Fredrik Lundh.
|
|
|
|
* Some new ports were contributed: MacOS X (by Steven Majewski), Cygwin (by
|
|
Jason Tishler); RISCOS (by Dietmar Schwertberger); Unixware 7 (by Billy G.
|
|
Allie).
|
|
|
|
And there's the usual list of minor bugfixes, minor memory leaks, docstring
|
|
edits, and other tweaks, too lengthy to be worth itemizing; see the CVS logs for
|
|
the full details if you want them.
|
|
|
|
.. ======================================================================
|
|
|
|
|
|
Acknowledgements
|
|
================
|
|
|
|
The author would like to thank the following people for offering suggestions on
|
|
various drafts of this article: Graeme Cross, David Goodger, Jay Graves, Michael
|
|
Hudson, Marc-André Lemburg, Fredrik Lundh, Neil Schemenauer, Thomas Wouters.
|
|
|