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94 строки
3.2 KiB
Plaintext
94 строки
3.2 KiB
Plaintext
====================================
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Miscellaneous features of the py lib
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====================================
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Mapping the standard python library into py
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===========================================
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The ``py.std`` object allows lazy access to
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standard library modules. For example, to get to the print-exception
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functionality of the standard library you can write::
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py.std.traceback.print_exc()
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without having to do anything else than the usual ``import py``
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at the beginning. You can access any other top-level standard
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library module this way. This means that you will only trigger
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imports of modules that are actually needed. Note that no attempt
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is made to import submodules.
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Support for interaction with system utilities/binaries
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======================================================
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Currently, the py lib offers two ways to interact with
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system executables. ``py.process.cmdexec()`` invokes
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the shell in order to execute a string. The other
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one, ``py.path.local``'s 'sysexec()' method lets you
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directly execute a binary.
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Both approaches will raise an exception in case of a return-
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code other than 0 and otherwise return the stdout-output
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of the child process.
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The shell based approach
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------------------------
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You can execute a command via your system shell
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by doing something like::
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out = py.process.cmdexec('ls -v')
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However, the ``cmdexec`` approach has a few shortcomings:
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- it relies on the underlying system shell
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- it neccessitates shell-escaping for expressing arguments
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- it does not easily allow to "fix" the binary you want to run.
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- it only allows to execute executables from the local
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filesystem
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.. _sysexec:
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local paths have ``sysexec``
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----------------------------
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In order to synchronously execute an executable file you
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can use ``sysexec``::
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binsvn.sysexec('ls', 'http://codespeak.net/svn')
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where ``binsvn`` is a path that points to the ``svn`` commandline
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binary. Note that this function does not offer any shell-escaping
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so you have to pass in already separated arguments.
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finding an executable local path
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--------------------------------
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Finding an executable is quite different on multiple platforms.
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Currently, the ``PATH`` environment variable based search on
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unix platforms is supported::
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py.path.local.sysfind('svn')
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which returns the first path whose ``basename`` matches ``svn``.
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In principle, `sysfind` deploys platform specific algorithms
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to perform the search. On Windows, for example, it may look
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at the registry (XXX).
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To make the story complete, we allow to pass in a second ``checker``
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argument that is called for each found executable. For example, if
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you have multiple binaries available you may want to select the
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right version::
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def mysvn(p):
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""" check that the given svn binary has version 1.1. """
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line = p.execute('--version'').readlines()[0]
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if line.find('version 1.1'):
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return p
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binsvn = py.path.local.sysfind('svn', checker=mysvn)
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Cross-Python Version compatibility helpers
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=============================================
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The ``py.builtin`` namespace provides a number of helpers that help to write python code compatible across Python interpreters, mainly Python2 and Python3. Type ``help(py.builtin)`` on a Python prompt for the selection of builtins.
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