traverseda
/
cpython
1
0
Fork 0
Code Issues Pull Requests Releases Wiki Activity

Add new section "What About Python 1.6?" 

Document some things in the 2.0 NEWS files that should be mentioned here.
This commit is contained in:
Andrew M. Kuchling 2000-09-06 17:58:49 +00:00
parent 4338a284b8
commit 4d46d38292
1 changed files with 55 additions and 2 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

57
Doc/whatsnew/whatsnew20.tex
View File

@ -29,6 +29,29 @@ better error messages went into 2.0; to list them all would be
impossible, but they're certainly significant. Consult the
publicly-available CVS logs if you want to see the full list.
% ======================================================================
\section{What About Python 1.6?}
Python 1.6 can be thought of as the Contractual Obligations Python
release. After the core development team left CNRI in May 2000, CNRI
requested that a 1.6 release be created, containing all the work on
Python that had been performed at CNRI. Python 1.6 therefore
represents the state of the CVS tree as of May 2000, with the most
significant new feature being Unicode support. Development continued
after May, of course, so the 1.6 tree received a few fixes to ensure
that it's forward-compatible with Python 2.0. 1.6 is therefore part
of Python's evolution, and not a side branch.
So, should you take much interest in Python 1.6? Probably not. The
1.6final and 2.0beta1 releases were made on the same day (September 5,
2000), the plan being to finalize Python 2.0 within a month or so. If
you have applications to maintain, there seems little point in
breaking things by moving to 1.6, fixing them, and then having another
round of breakage within a month by moving to 2.0; you're better off
just going straight to 2.0. Most of the really interesting features
described in this document are only in 2.0, because a lot of work was
done between May and September.
% ======================================================================
\section{Unicode}
@ -528,6 +551,11 @@ def f():
f()
\end{verbatim}
Two new exceptions, \exception{TabError} and
\exception{IndentationError}, have been introduced. They're both
subclasses of \exception{SyntaxError}, and are raised when Python code
is found to be improperly indented.
\subsection{Changes to Built-in Functions}
A new built-in, \function{zip(\var{seq1}, \var{seq2}, ...)}, has been
@ -569,14 +597,22 @@ else:
can be reduced to a single \code{return dict.setdefault(key, [])} statement.
The interpreter sets a maximum recursion depth in order to catch
runaway recursion before filling the C stack and causing a core dump
or GPF.. Previously this limit was fixed when you compiled Python,
but in 2.0 the maximum recursion depth can be read and modified using
\function{sys.getrecursionlimit} and \function{sys.setrecursionlimit}.
The default value is 1000, and a rough maximum value for a given
platform can be found by running a new script,
\file{Misc/find_recursionlimit.py}.
% ======================================================================
\section{Porting to 2.0}
New Python releases try hard to be compatible with previous releases,
and the record has been pretty good. However, some changes are
considered useful enough, often fixing initial design decisions that
turned to be actively mistaken, that breaking backward compatibility
considered useful enough, usually because they fix initial design decisions that
turned out to be actively mistaken, that breaking backward compatibility
can't always be avoided. This section lists the changes in Python 2.0
that may cause old Python code to break.
@ -613,6 +649,16 @@ reaction, so for the \module{socket} module, the documentation was
fixed and the multiple argument form is simply marked as deprecated;
it \emph{will} be tightened up again in a future Python version.
The \code{\e x} escape in string literals now takes exactly 2 hex
digits. Previously it would consume all the hex digits following the
'x' and take the lowest 8 bits of the result, so \code{\e x123456} was
equivalent to \code{\e x56}.
The \exception{AttributeError} exception has a more friendly error message,
whose text will be something like \code{'Spam' instance has no attribute 'eggs'}.
Previously the error message was just the missing attribute name \code{eggs}, and
code written to take advantage of this fact will break in 2.0.
Some work has been done to make integers and long integers a bit more
interchangeable. In 1.5.2, large-file support was added for Solaris,
to allow reading files larger than 2Gb; this made the \method{tell()}
@ -720,6 +766,13 @@ Python 2.0's source now uses only ANSI C prototypes, so compiling Python now
requires an ANSI C compiler, and can no longer be done using a compiler that
only supports K\&R C.
Previously the Python virtual machine used 16-bit numbers in its
bytecode, limiting the size of source files. In particular, this
affected the maximum size of literal lists and dictionaries in Python
source; occasionally people who are generating Python code would run into this limit.
A patch by Charles G. Waldman raises the limit from \verb|2^16| to \verb|2^{32}|.
% ======================================================================
\section{Distutils: Making Modules Easy to Install}