647 lines
22 KiB
Plaintext
647 lines
22 KiB
Plaintext
PEP: 3147
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Title: PYC Repository Directories
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Version: $Revision$
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Last-Modified: $Date$
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Author: Barry Warsaw <barry@python.org>
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Status: Final
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Type: Standards Track
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Content-Type: text/x-rst
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Created: 2009-12-16
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Python-Version: 3.2
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Post-History: 2010-01-30, 2010-02-25, 2010-03-03, 2010-04-12
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Accepted: http://mail.python.org/pipermail/python-dev/2010-April/099414.html
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Abstract
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========
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This PEP describes an extension to Python's import mechanism which
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improves sharing of Python source code files among multiple installed
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different versions of the Python interpreter. It does this by
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allowing more than one byte compilation file (.pyc files) to be
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co-located with the Python source file (.py file). The extension
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described here can also be used to support different Python
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compilation caches, such as JIT output that may be produced by an
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Unladen Swallow [1]_ enabled C Python.
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Background
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==========
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CPython compiles its source code into "byte code", and for performance
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reasons, it caches this byte code on the file system whenever the
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source file has changes. This makes loading of Python modules much
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faster because the compilation phase can be bypassed. When your
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source file is `foo.py`, CPython caches the byte code in a `foo.pyc`
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file right next to the source.
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Byte code files contain two 32-bit big-endian numbers followed by the
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marshaled [2]_ code object. The 32-bit numbers represent a magic
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number and a timestamp. The magic number changes whenever Python
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changes the byte code format, e.g. by adding new byte codes to its
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virtual machine. This ensures that pyc files built for previous
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versions of the VM won't cause problems. The timestamp is used to
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make sure that the pyc file match the py file that was used to create
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it. When either the magic number or timestamp do not match, the py
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file is recompiled and a new pyc file is written.
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In practice, it is well known that pyc files are not compatible across
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Python major releases. A reading of import.c [3]_ in the Python
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source code proves that within recent memory, every new CPython major
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release has bumped the pyc magic number.
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Rationale
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=========
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Linux distributions such as Ubuntu [4]_ and Debian [5]_ provide more
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than one Python version at the same time to their users. For example,
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Ubuntu 9.10 Karmic Koala users can install Python 2.5, 2.6, and 3.1,
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with Python 2.6 being the default.
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This causes a conflict for third party Python source files installed
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by the system, because you cannot compile a single Python source file
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for more than one Python version at a time. When Python finds a `pyc`
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file with a non-matching magic number, it falls back to the slower
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process of recompiling the source. Thus if your system installed a
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`/usr/share/python/foo.py`, two different versions of Python would
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fight over the `pyc` file and rewrite it each time the source is
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compiled. (The standard library is unaffected by this, since multiple
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versions of the stdlib *are* installed on such distributions..)
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Furthermore, in order to ease the burden on operating system packagers
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for these distributions, the distribution packages do not contain
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Python version numbers [6]_; they are shared across all Python
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versions installed on the system. Putting Python version numbers in
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the packages would be a maintenance nightmare, since all the packages
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- *and their dependencies* - would have to be updated every time a new
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Python release was added or removed from the distribution. Because of
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the sheer number of packages available, this amount of work is
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infeasible.
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(PEP 384 [7]_ has been proposed to address binary compatibility issues
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of third party extension modules across different versions of Python.)
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Because these distributions cannot share pyc files, elaborate
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mechanisms have been developed to put the resulting pyc files in
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non-shared locations while the source code is still shared. Examples
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include the symlink-based Debian regimes python-support [8]_ and
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python-central [9]_. These approaches make for much more complicated,
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fragile, inscrutable, and fragmented policies for delivering Python
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applications to a wide range of users. Arguably more users get Python
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from their operating system vendor than from upstream tarballs. Thus,
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solving this pyc sharing problem for CPython is a high priority for
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such vendors.
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This PEP proposes a solution to this problem.
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Proposal
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========
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Python's import machinery is extended to write and search for byte
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code cache files in a single directory inside every Python package
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directory. This directory will be called `__pycache__`.
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Further, pyc file names will contain a magic string (called a "tag")
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that differentiates the Python version they were compiled for. This
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allows multiple byte compiled cache files to co-exist for a single
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Python source file.
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The magic tag is implementation defined, but should contain the
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implementation name and a version number shorthand, e.g. `cpython-32`.
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It must be unique among all versions of Python, and whenever the magic
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number is bumped, a new magic tag must be defined. An example `pyc`
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file for Python 3.2 is thus `foo.cpython-32.pyc`.
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The magic tag is available in the `imp` module via the `get_tag()`
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function. This is parallel to the `imp.get_magic()` function.
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This scheme has the added benefit of reducing the clutter in a Python
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package directory.
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When a Python source file is imported for the first time, a
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`__pycache__` directory will be created in the package directory, if
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one does not already exist. The pyc file for the imported source will
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be written to the `__pycache__` directory, using the magic-tag
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formatted name. If either the creation of the `__pycache__` directory
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or the pyc file inside that fails, the import will still succeed, just
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as it does in a pre-PEP-3147 world.
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If the py source file is missing, the pyc file inside `__pycache__`
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will be ignored. This eliminates the problem of accidental stale pyc
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file imports.
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For backward compatibility, Python will still support pyc-only
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distributions, however it will only do so when the pyc file lives in
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the directory where the py file *would* have been, i.e. not in the
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`__pycache__` directory. pyc file outside of `__pycache__` will only
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be imported if the py source file is missing.
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Tools such as `py_compile` [15]_ and `compileall` [16]_ will be
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extended to create PEP 3147 formatted layouts automatically, but will
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have an option to create pyc-only distribution layouts.
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Examples
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---------
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What would this look like in practice?
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Let's say we have a Python package named `alpha` which contains a
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sub-package name `beta`. The source directory layout before byte
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compilation might look like this::
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alpha/
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__init__.py
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one.py
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two.py
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beta/
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__init__.py
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three.py
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four.py
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After byte compiling this package with Python 3.2, you would see the
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following layout::
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alpha/
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__pycache__/
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__init__.cpython-32.pyc
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one.cpython-32.pyc
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two.cpython-32.pyc
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__init__.py
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one.py
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two.py
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beta/
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__pycache__/
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__init__.cpython-32.pyc
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three.cpython-32.pyc
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four.cpython-32.pyc
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__init__.py
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three.py
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four.py
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*Note: listing order may differ depending on the platform.*
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Let's say that two new versions of Python are installed, one is Python
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3.3 and another is Unladen Swallow. After byte compilation, the file
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system would look like this::
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alpha/
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__pycache__/
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__init__.cpython-32.pyc
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__init__.cpython-33.pyc
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__init__.unladen-10.pyc
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one.cpython-32.pyc
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one.cpython-33.pyc
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one.unladen-10.pyc
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two.cpython-32.pyc
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two.cpython-33.pyc
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two.unladen-10.pyc
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__init__.py
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one.py
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two.py
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beta/
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__pycache__/
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__init__.cpython-32.pyc
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__init__.cpython-33.pyc
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__init__.unladen-10.pyc
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three.cpython-32.pyc
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three.cpython-33.pyc
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three.unladen-10.pyc
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four.cpython-32.pyc
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four.cpython-33.pyc
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four.unladen-10.pyc
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__init__.py
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three.py
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four.py
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As you can see, as long as the Python version identifier string is
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unique, any number of pyc files can co-exist. These identifier
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strings are described in more detail below.
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A nice property of this layout is that the `__pycache__` directories
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can generally be ignored, such that a normal directory listing would
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show something like this::
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alpha/
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__pycache__/
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__init__.py
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one.py
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two.py
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beta/
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__pycache__/
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__init__.py
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three.py
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four.py
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This is much less cluttered than even today's Python.
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Python behavior
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===============
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When Python searches for a module to import (say `foo`), it may find
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one of several situations. As per current Python rules, the term
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"matching pyc" means that the magic number matches the current
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interpreter's magic number, and the source file's timestamp matches
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the timestamp in the `pyc` file exactly.
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Case 0: The steady state
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------------------------
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When Python is asked to import module `foo`, it searches for a
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`foo.py` file (or `foo` package, but that's not important for this
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discussion) along its `sys.path`. If found, Python looks to see if
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there is a matching `__pycache__/foo.<magic>.pyc` file, and if so,
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that `pyc` file is loaded.
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Case 1: The first import
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------------------------
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When Python locates the `foo.py`, if the `__pycache__/foo.<magic>.pyc`
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file is missing, Python will create it, also creating the
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`__pycache__` directory if necessary. Python will parse and byte
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compile the `foo.py` file and save the byte code in
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`__pycache__/foo.<magic>.pyc`.
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Case 2: The second import
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-------------------------
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When Python is asked to import module `foo` a second time (in a
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different process of course), it will again search for the `foo.py`
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file along its `sys.path`. When Python locates the `foo.py` file, it
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looks for a matching `__pycache__/foo.<magic>.pyc` and finding this,
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it reads the byte code and continues as usual.
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Case 3: __pycache__/foo.<magic>.pyc with no source
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---------------------------------------------------
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It's possible that the `foo.py` file somehow got removed, while
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leaving the cached pyc file still on the file system. If the
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`__pycache__/foo.<magic>.pyc` file exists, but the `foo.py` file used
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to create it does not, Python will raise an `ImportError` when asked
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to import foo. In other words, Python will not import a pyc file from
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the cache directory unless the source file exists.
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Case 4: legacy pyc files and source-less imports
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------------------------------------------------
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Python will ignore all legacy pyc files when a source file exists next
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to it. In other words, if a `foo.pyc` file exists next to the
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`foo.py` file, the pyc file will be ignored in all cases
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In order to continue to support source-less distributions though, if
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the source file is missing, Python will import a lone pyc file if it
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lives where the source file would have been.
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Case 5: read-only file systems
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------------------------------
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When the source lives on a read-only file system, or the `__pycache__`
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directory or pyc file cannot otherwise be written, all the same rules
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apply. This is also the case when `__pycache__` happens to be written
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with permissions which do not allow for writing containing pyc files.
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Flow chart
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==========
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Here is a flow chart describing how modules are loaded:
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.. image:: pep-3147-1.png
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:scale: 75
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Alternative Python implementations
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==================================
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Alternative Python implementations such as Jython [11]_, IronPython
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[12]_, PyPy [13]_, Pynie [14]_, and Unladen Swallow can also use the
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`__pycache__` directory to store whatever compilation artifacts make
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sense for their platforms. For example, Jython could store the class
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file for the module in `__pycache__/foo.jython-32.class`.
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Implementation strategy
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=======================
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This feature is targeted for Python 3.2, solving the problem for those
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and all future versions. It may be back-ported to Python 2.7.
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Vendors are free to backport the changes to earlier distributions as
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they see fit. For backports of this feature to Python 2, when the
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`-U` flag is used, a file such as `foo.cpython-27u.pyc` can be
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written.
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Effects on existing code
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========================
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Adoption of this PEP will affect existing code and idioms, both inside
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Python and outside. This section enumerates some of these effects.
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__file__
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---------
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In Python 3, when you import a module, its `__file__` attribute points
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to its source `py` file (in Python 2, it points to the `pyc` file). A
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package's `__file__` points to the `py` file for its `__init__.py`.
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E.g.::
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>>> import foo
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>>> foo.__file__
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'foo.py'
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# baz is a package
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>>> import baz
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>>> baz.__file__
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'baz/__init__.py'
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Nothing in this PEP would change the semantics of `__file__`.
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This PEP proposes the addition of an `__cached__` attribute to
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modules, which will always point to the actual `pyc` file that was
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read or written. When the environment variable
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`$PYTHONDONTWRITEBYTECODE` is set, or the `-B` option is given, or if
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the source lives on a read-only filesystem, then the `__cached__`
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attribute will point to the location that the `pyc` file *would* have
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been written to if it didn't exist. This location of course includes
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the `__pycache__` subdirectory in its path.
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For alternative Python implementations which do not support `pyc`
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files, the `__cached__` attribute may point to whatever information
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makes sense. E.g. on Jython, this might be the `.class` file for the
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module: `__pycache__/foo.jython-32.class`. Some implementations may
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use multiple compiled files to create the module, in which case
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`__cached__` may be a tuple. The exact contents of `__cached__` are
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Python implementation specific.
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It is recommended that when nothing sensible can be calculated,
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implementations should set the `__cached__` attribute to `None`.
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py_compile and compileall
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-------------------------
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Python comes with two modules, `py_compile` [15]_ and `compileall`
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[16]_ which support compiling Python modules external to the built-in
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import machinery. `py_compile` in particular has intimate knowledge
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of byte compilation, so these will be updated to understand the new
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layout. The `-b` flag is added to `compileall` for writing legacy
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`.pyc` byte-compiled file path names.
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bdist_wininst and the Windows installer
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---------------------------------------
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These tools also compile modules explicitly on installation. If they
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do not use `py_compile` and `compileall`, then they would also have to
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be modified to understand the new layout.
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File extension checks
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---------------------
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There exists some code which checks for files ending in `.pyc` and
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simply chops off the last character to find the matching `.py` file.
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This code will obviously fail once this PEP is implemented.
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To support this use case, we'll add two new methods to the `imp`
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package [17]_:
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* `imp.source_from_cache(py_path)` -> `pyc_path`
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* `imp.cache_from_source(pyc_path)` -> `py_path`
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Alternative implementations are free to override these functions to
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return reasonable values based on their own support for this PEP.
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These methods are allowed to return `None` when the implementation (or
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PEP 302 loader [18]_ in effect) for whatever reason cannot calculate
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the appropriate file name. They should not raise exceptions.
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Backports
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---------
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For versions of Python earlier than 3.2 (and possibly 2.7), it is
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possible to backport this PEP. However, in Python 3.2 (and possibly
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2.7), this behavior will be turned on by default, and in fact, it will
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replace the old behavior. Backports will need to support the old
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layout by default. We suggest supporting PEP 3147 through the use of
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an environment variable called `$PYTHONENABLECACHEDIR` or the command
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line switch `-Xenablecachedir` to enable the feature.
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Makefiles and other dependency tools
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------------------------------------
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Makefiles and other tools which calculate dependencies on `.pyc` files
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(e.g. to byte-compile the source if the `.pyc` is missing) will have
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to be updated to check the new paths.
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Alternatives
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============
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This section describes some alternative approaches or details that
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were considered and rejected during the PEP's development.
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Hexadecimal magic tags
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----------------------
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pyc files inside of the `__pycache__` directories contain a magic tag
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in their file names. These are mnemonic tags for the actual magic
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numbers used by the importer. We could have used the hexadecimal
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representation [10]_ of the binary magic number as a unique
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identifier. For example, in Python 3.2::
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>>> from binascii import hexlify
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>>> from imp import get_magic
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>>> 'foo.{}.pyc'.format(hexlify(get_magic()).decode('ascii'))
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'foo.580c0d0a.pyc'
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This isn't particularly human friendly though, thus the magic tag
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proposed in this PEP.
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PEP 304
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-------
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There is some overlap between the goals of this PEP and PEP 304 [19]_,
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which has been withdrawn. However PEP 304 would allow a user to
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create a shadow file system hierarchy in which to store `pyc` files.
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This concept of a shadow hierarchy for `pyc` files could be used to
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satisfy the aims of this PEP. Although the PEP 304 does not indicate
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why it was withdrawn, shadow directories have a number of problems.
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The location of the shadow `pyc` files would not be easily discovered
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and would depend on the proper and consistent use of the
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`$PYTHONBYTECODE` environment variable both by the system and by end
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users. There are also global implications, meaning that while the
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system might want to shadow `pyc` files, users might not want to, but
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the PEP defines only an all-or-nothing approach.
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As an example of the problem, a common (though fragile) Python idiom
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for locating data files is to do something like this::
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from os import dirname, join
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import foo.bar
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data_file = join(dirname(foo.bar.__file__), 'my.dat')
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This would be problematic since `foo.bar.__file__` will give the
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location of the `pyc` file in the shadow directory, and it may not be
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possible to find the `my.dat` file relative to the source directory
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from there.
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Fat byte compilation files
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--------------------------
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An earlier version of this PEP described "fat" Python byte code files.
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These files would contain the equivalent of multiple `pyc` files in a
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single `pyf` file, with a lookup table keyed off the appropriate magic
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number. This was an extensible file format so that the first 5
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parallel Python implementations could be supported fairly efficiently,
|
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but with extension lookup tables available to scale `pyf` byte code
|
||
objects as large as necessary.
|
||
|
||
The fat byte compilation files were fairly complex, and inherently
|
||
introduced difficult race conditions, so the current simplification of
|
||
using directories was suggested. The same problem applies to using
|
||
zip files as the fat pyc file format.
|
||
|
||
|
||
Multiple file extensions
|
||
------------------------
|
||
|
||
The PEP author also considered an approach where multiple thin byte
|
||
compiled files lived in the same place, but used different file
|
||
extensions to designate the Python version. E.g. foo.pyc25,
|
||
foo.pyc26, foo.pyc31 etc. This was rejected because of the clutter
|
||
involved in writing so many different files. The multiple extension
|
||
approach makes it more difficult (and an ongoing task) to update any
|
||
tools that are dependent on the file extension.
|
||
|
||
|
||
.pyc
|
||
----
|
||
|
||
A proposal was floated to call the `__pycache__` directory `.pyc` or
|
||
some other dot-file name. This would have the effect on *nix systems
|
||
of hiding the directory. There are many reasons why this was
|
||
rejected by the BDFL [20]_ including the fact that dot-files are only
|
||
special on some platforms, and we actually do *not* want to hide these
|
||
completely from users.
|
||
|
||
|
||
Reference implementation
|
||
========================
|
||
|
||
Work on this code is tracked in a Bazaar branch on Launchpad [22]_
|
||
until it's ready for merge into Python 3.2. The work-in-progress diff
|
||
can also be viewed [23]_ and is updated automatically as new changes
|
||
are uploaded.
|
||
|
||
A Rietveld code review issue [24]_ has been opened as of 2010-04-01 (no,
|
||
this is not an April Fools joke :).
|
||
|
||
|
||
References
|
||
==========
|
||
|
||
.. [1] PEP 3146
|
||
|
||
.. [2] The marshal module:
|
||
http://www.python.org/doc/current/library/marshal.html
|
||
|
||
.. [3] import.c:
|
||
http://svn.python.org/view/python/branches/py3k/Python/import.c?view=markup
|
||
|
||
.. [4] Ubuntu: <http://www.ubuntu.com>
|
||
|
||
.. [5] Debian: <http://www.debian.org>
|
||
|
||
.. [6] Debian Python Policy:
|
||
http://www.debian.org/doc/packaging-manuals/python-policy/
|
||
|
||
.. [7] PEP 384
|
||
|
||
.. [8] python-support:
|
||
http://wiki.debian.org/DebianPythonFAQ#Whatispython-support.3F
|
||
|
||
.. [9] python-central:
|
||
http://wiki.debian.org/DebianPythonFAQ#Whatispython-central.3F
|
||
|
||
.. [10] binascii.hexlify():
|
||
http://www.python.org/doc/current/library/binascii.html#binascii.hexlify
|
||
|
||
.. [11] Jython: http://www.jython.org/
|
||
|
||
.. [12] IronPython: http://ironpython.net/
|
||
|
||
.. [13] PyPy: http://codespeak.net/pypy/dist/pypy/doc/
|
||
|
||
.. [14] Pynie: http://code.google.com/p/pynie/
|
||
|
||
.. [15] py_compile: http://docs.python.org/library/py_compile.html
|
||
|
||
.. [16] compileall: http://docs.python.org/library/compileall.html
|
||
|
||
.. [17] imp: http://www.python.org/doc/current/library/imp.html
|
||
|
||
.. [18] PEP 302
|
||
|
||
.. [19] PEP 304
|
||
|
||
.. [20] http://www.mail-archive.com/python-dev@python.org/msg45203.html
|
||
|
||
.. [21] importlib: http://docs.python.org/3.1/library/importlib.html
|
||
|
||
.. [22] https://code.launchpad.net/~barry/python/pep3147
|
||
|
||
.. [23] https://code.launchpad.net/~barry/python/pep3147/+merge/22648
|
||
|
||
.. [24] http://codereview.appspot.com/842043/show
|
||
|
||
|
||
ACKNOWLEDGMENTS
|
||
===============
|
||
|
||
Barry Warsaw's original idea was for fat Python byte code files.
|
||
Martin von Loewis reviewed an early draft of the PEP and suggested the
|
||
simplification to store traditional `pyc` and `pyo` files in a
|
||
directory. Many other people reviewed early versions of this PEP and
|
||
provided useful feedback including but not limited to:
|
||
|
||
* David Malcolm
|
||
* Josselin Mouette
|
||
* Matthias Klose
|
||
* Michael Hudson
|
||
* Michael Vogt
|
||
* Piotr Ożarowski
|
||
* Scott Kitterman
|
||
* Toshio Kuratomi
|
||
|
||
|
||
Copyright
|
||
=========
|
||
|
||
This document has been placed in the public domain.
|
||
|
||
|
||
|
||
..
|
||
Local Variables:
|
||
mode: indented-text
|
||
indent-tabs-mode: nil
|
||
sentence-end-double-space: t
|
||
fill-column: 70
|
||
coding: utf-8
|
||
End:
|