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What's New in Python 2.0b1?
===========================
Below is a list of all relevant changes since release 1.6. Older
changes are in the file HISTORY. If you are making the jump directly
from Python 1.5.2 to 2.0, make sure to read the section for 1.6 in the
HISTORY file! Many important changes listed there.
Alternatively, a good overview of the changes between 1.5.2 and 2.0 is
the document "What's New in Python 2.0" by Kuchling and Moshe Zadka:
http://starship.python.net/crew/amk/python/writing/new-python/.
--Guido van Rossum (home page: http://www.pythonlabs.com/~guido/)
======================================================================
Source Incompatibilities
------------------------
None. Note that 1.6 introduced several incompatibilities with 1.5.2,
such as single-argument append(), connect() and bind(), and changes to
str(long) and repr(float).
Binary Incompatibilities
------------------------
- Third party extensions built for Python 1.5.x or 1.6 cannot be used
with Python 2.0; these extensions will have to be rebuilt for Python
2.0.
- On Windows, attempting to import a third party extension built for
Python 1.5.x or 1.6 results in an immediate crash; there's not much we
can do about this. Check your PYTHONPATH environment variable!
- Python bytecode files (*.pyc and *.pyo) are not compatible between
releases.
Overview of Changes Since 1.6
-----------------------------
There are many new modules (including brand new XML support through
the xml package, and i18n support through the gettext module); a list
of all new modules is included below. Lots of bugs have been fixed.
There are several important syntax enhancements, described in more
detail below:
- Augmented assignment, e.g. x += 1
- List comprehensions, e.g. [x**2 for x in range(10)]
- Extended import statement, e.g. import Module as Name
- Extended print statement, e.g. print >> file, "Hello"
Other important changes:
- Optional collection of cyclical garbage
Augmented Assignment
--------------------
This must have been the most-requested feature of the past years!
Eleven new assignment operators were added:
+= -= *= /= %= **= <<= >>= &= ^= |=
For example,
A += B
is similar to
A = A + B
except that A is evaluated only once (relevant when A is something
like dict[index].attr).
However, if A is a mutable object, A may be modified in place. Thus,
if A is a number or a string, A += B has the same effect as A = A+B
(except A is only evaluated once); but if a is a list, A += B has the
same effect as A.extend(B)!
Classes and built-in object types can override the new operators in
order to implement the in-place behavior; the not-in-place behavior is
used automatically as a fallback when an object doesn't implement the
in-place behavior. For classes, the method name is derived from the
method name for the corresponding not-in-place operator by inserting
an 'i' in front of the name, e.g. __iadd__ implements in-place
__add__.
Augmented assignment was implemented by Thomas Wouters.
List Comprehensions
-------------------
This is a flexible new notation for lists whose elements are computed
from another list (or lists). The simplest form is:
[<expression> for <variable> in <sequence>]
For example, [x**2 for i in range(4)] yields the list [0, 1, 4, 9].
This is more efficient than map() with a lambda.
You can also add a condition:
[<expression> for <variable> in <sequence> if <condition>]
For example, [w for w in words if w == w.lower()] would yield the list
of words that contain no uppercase characters. This is more efficient
than filter() with a lambda.
You can also have nested for loops and more than one 'if' clause. For
example, here's a function that flattens a sequence of sequences::
def flatten(seq):
return [x for subseq in seq for x in subseq]
flatten([[0], [1,2,3], [4,5], [6,7,8,9], []])
This prints
[0, 1, 2, 3, 4, 5, 6, 7, 8, 9]
List comprehensions originated as a patch set from Greg Ewing; Skip
Montanaro and Thomas Wouters also contributed.
Extended Import Statement
-------------------------
Many people have asked for a way to import a module under a different
name. This can be accomplished like this:
import foo
bar = foo
del foo
but this common idiom gets old quickly. A simple extension of the
import statement now allows this to be written as follows:
import foo as bar
There's also a variant for 'from ... import':
from foo import bar as spam
This also works with packages; e.g. you can write this:
import test.regrtest as regrtest
Note that 'as' is not a new keyword -- it is recognized only in this
context (this is only possible because the syntax for the import
statement doesn't involve expressions).
Implemented by Thomas Wouters.
Extended Print Statement
------------------------
Easily the most controversial new feature, this extension to the print
statement adds an option to make the output go to a different file
than the default sys.stdout.
For example, to write an error message to sys.stderr, you can now
write:
print >> sys.stderr, "Error: bad dog!"
As a special feature, if the expression used to indicate the file
evaluates to None, the current value of sys.stdout used. Thus:
print >> None, "Hello world"
is equivalent to
print "Hello world"
Design and implementation by Barry Warsaw.
Optional Collection of Cyclical Garbage
---------------------------------------
Python is now equipped with a garbage collector that can hunt down
cyclical references between Python objects. It's no replacement for
reference counting; in fact, it depends on the reference counts being
correct, and decides that a set of objects belong to a cycle if all
their reference counts can be accounted for from their references to
each other. This devious scheme was first proposed by Eric Tiedemann,
and brought to implementation by Neil Schemenauer.
There's a module "gc" that lets you control some parameters of the
garbage collection. There's also an option to the configure script
that lets you enable or disable the garbage collection. In 2.0b1,
it's on by default, so that we (hopefully) can collect decent user
experience with this new feature. There are some questions about its
performance. if it proves to be too much of a problem, we'll turn it
off by default in the final 2.0 release.
Smaller Changes
---------------
A new function zip() was added. zip(seq1, seq2, ...) is equivalent to
map(None, seq1, seq2, ...) when the sequences have the same length;
i.e. zip([1,2,3], [10,20,30]) returns [(1,10), (2,20), (3,30)]. When
the lists are not all the same length, the shortest list wins:
zip([1,2,3], [10,20]) returns [(1,10), (2,20)].
sys.version_info is a tuple (major, minor, micro, level, serial).
Dictionaries have an odd new method, setdefault(key, default).
dict.setdefault(key, default) returns dict[key] if it exists; if not,
it sets dict[key] to default and returns that value. Thus:
dict.setdefault(key, []).append(item)
does the same work as this common idiom:
if not dict.has_key(key):
dict[key] = []
dict[key].append(item)
New Modules and Packages
------------------------
atexit - for registering functions to be called when Python exits.
imputil - Greg Stein's alternative API for writing custom import
hooks.
pyexpat - an interface to the Expat XML parser, contributed by Paul
Prescod.
xml - a new package with XML support code organized (so far) in three
subpackages: xml.dom, xml.sax, and xml.parsers. Describing these
would fill a volume. There's a special feature whereby a
user-installed package named _xmlplus overrides the standard
xmlpackage; this is intended to give the XML SIG a hook to distribute
backwards-compatible updates to the standard xml package.
webbrowser - a platform-independent API to launch a web browser.
Changed Modules
---------------
ftplib - ntransfercmd(), transfercmd(), and retrbinary() all now
optionally support the RFC 959 REST command.
socket - new function getfqdn()
XXX: I'm sure there are others
Obsolete Modules
----------------
None. However note that 1.6 made a whole slew of modules obsolete:
stdwin, soundex, cml, cmpcache, dircache, dump, find, grep, packmail,
poly, zmod, strop, util, whatsound.
Changed, New, Obsolete Tools
----------------------------
XXX: are there any? If not, say "None" here.
C-level Changes
---------------
Several cleanup jobs were carried out throughout the source code.
All C code was converted to ANSI C; we got rid of all uses of the
Py_PROTO() macro, which makes the header files a lot more readable.
Most of the portability hacks were moved to a new header file,
pyport.h; several other new header files were added and some old
header files were removed, in an attempt to create a more rational set
of header files. (Few of these ever need to be included explicitly;
they are all included by Python.h.)
Vladimir Marangozov redesigned more rational APIs for allocating
memory. See pymem.h.
Trent Mick ensured portability to 64-bit platforms, under both Linux
and Win64, especially for the new Intel Itanium processor.
Numerous new APIs were added, e.g.
XXX: Fill this out.
======================================================================
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