140 lines
5.4 KiB
Plaintext
140 lines
5.4 KiB
Plaintext
=======================================================
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Visions and ideas for further development of the py lib
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=======================================================
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.. contents::
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.. sectnum::
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This document tries to describe directions and guiding ideas
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for the near-future development of the py lib. *Note that all
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statements within this document - even if they sound factual -
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mostly just express thoughts and ideas. They not always refer to
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real code so read with some caution.*
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Distribute tests ad-hoc across multiple platforms
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======================================================
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After some more refactoring and unification of
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the current testing and distribution support code
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we'd like to be able to run tests on multiple
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platforms simultanously and allow for interaction
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and introspection into the (remote) failures.
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Make APIGEN useful for more projects
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================================================
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The new APIGEN tool offers rich information
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derived from running tests against an application:
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argument types and callsites, i.e. it shows
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the places where a particular API is used.
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In its first incarnation, there are still
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some specialties that likely prevent it
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from documenting APIs for other projects.
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We'd like to evolve to a `py.apigen` tool
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that can make use of information provided
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by a py.test run.
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Consider APIGEN and pdb integration
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===================================
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The information provided by APIGEN can be used in many
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different ways. An example of this could be to write
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an extension to pdb which makes it available.
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Imagine you could issue a pdb command
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"info <function name>" and get information
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regarding incoming, and outgoing types, possible
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exceptions, field types and call sites.
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Distribute channels/programs across networks
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================================================
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Apart from stabilizing setup/teardown procedures
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for `py.execnet`_, we'd like to generalize its
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implementation to allow connecting two programs
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across multiple hosts, i.e. we'd like to arbitrarily
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send "channels" across the network. Likely this
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will be done by using the "pipe" model, i.e.
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that each channel is actually a pair of endpoints,
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both of which can be independently transported
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across the network. The programs who "own"
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these endpoints remain connected.
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.. _`py.execnet`: execnet.html
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Benchmarking and persistent storage
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=========================================
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For storing test results, but also benchmarking
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and other information, we need a solid way
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to store all kinds of information from test runs.
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We'd like to generate statistics or html-overview
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out of it, but also use such information to determine when
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a certain test broke, or when its performance
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decreased considerably.
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.. _`CPython's distutils`: http://www.python.org/dev/doc/devel/lib/module-distutils.html
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.. _`restructured text`: http://docutils.sourceforge.net/docs/user/rst/quickref.html
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.. _`python standard library`: http://www.python.org/doc/2.3.4/lib/lib.html
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.. _`xpython EuroPython 2004 talk`: http://codespeak.net/svn/user/hpk/talks/xpython-talk.txt
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.. _`under the xpy tree`: http://codespeak.net/svn/user/hpk/xpy/xml.py
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.. _`future book`: future.html
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.. _`PEP-324 subprocess module`: http://www.python.org/peps/pep-0324.html
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.. _`subprocess implementation`: http://www.lysator.liu.se/~astrand/popen5/
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.. _`py.test`: test.html
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.. _`general-path`:
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.. _`a more general view on path objects`:
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Refactor path implementations to use a Filesystem Abstraction
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=============================================================
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It seems like a good idea to refactor all python implementations to
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use an internal Filesystem abstraction. The current code base
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would be transformed to have Filesystem implementations for e.g.
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local, subversion and subversion "working copy" filesystems. Today
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the according code is scattered through path-handling code.
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On a related note, Armin Rigo has hacked `pylufs`_ and more recently has
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written `pyfuse`_ which allow to
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implement kernel-level linux filesystems with pure python. Now
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the idea is that the mentioned filesystem implementations would
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be directly usable for such linux-filesystem glue code.
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In other words, implementing a `memoryfs`_ or a `dictfs`_ would
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give you two things for free: a filesystem mountable at kernel level
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as well as a uniform "path" object allowing you to access your
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filesystem in convenient ways. (At some point it might
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even become interesting to think about interfacing to
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`reiserfs v4 features`_ at the Filesystem level but that
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is a can of subsequent worms).
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.. _`memoryfs`: http://codespeak.net/svn/user/arigo/hack/pyfuse/memoryfs.py
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.. _`dictfs`: http://codespeak.net/pipermail/py-dev/2005-January/000191.html
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.. _`pylufs`: http://codespeak.net/svn/user/arigo/hack/pylufs/
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.. _`pyfuse`: http://codespeak.net/svn/user/arigo/hack/pyfuse/
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.. _`reiserfs v4 features`: http://www.namesys.com/v4/v4.html
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Integrate interactive completion
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==================================
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It'd be nice to integrate the bash-like
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rlcompleter2_ python command line completer
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into the py lib, and making it work remotely
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and with pdb.
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.. _rlcompleter2: http://codespeak.net/rlcompleter2/
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Consider more features
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==================================
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There are many more features and useful classes
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that might be nice to integrate. For example, we might put
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Armin's `lazy list`_ implementation into the py lib.
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.. _`lazy list`: http://codespeak.net/svn/user/arigo/hack/misc/collect.py
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