353 lines
13 KiB
Plaintext
353 lines
13 KiB
Plaintext
PEP: 304
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Title: Controlling Generation of Bytecode Files
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Version: $Revision$
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Last-Modified: $Date$
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Author: Skip Montanaro
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Status: Draft
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Type: Standards Track
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Content-Type: text/x-rst
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Created: 22-Jan-2003
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Post-History: 27-Jan-2003, 31-Jan-2003, 17-Jun-2005
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Abstract
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========
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This PEP outlines a mechanism for controlling the generation and
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location of compiled Python bytecode files. This idea originally
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arose as a patch request [1]_ and evolved into a discussion thread on
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the python-dev mailing list [2]_. The introduction of an environment
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variable will allow people installing Python or Python-based
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third-party packages to control whether or not bytecode files should
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be generated at installation time, and if so, where they should be
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written. It will also allow users to control whether or not bytecode
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files should be generated at application run-time, and if so, where
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they should be written.
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Proposal
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========
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Add a new environment variable, PYTHONBYTECODEBASE, to the mix of
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environment variables which Python understands. PYTHONBYTECODEBASE is
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interpreted as follows:
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- If not defined, Python bytecode is generated in exactly the same way
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as is currently done. sys.bytecodebase is set to the root directory
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(either / on Unix and Mac OSX or the root directory of the startup
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(installation???) drive -- typically ``C:\`` -- on Windows).
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- If defined and it refers to an existing directory to which the user
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has write permission, sys.bytecodebase is set to that directory and
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bytecode files are written into a directory structure rooted at that
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location.
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- If defined but empty, sys.bytecodebase is set to None and generation
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of bytecode files is suppressed altogether.
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- If defined and one of the following is true:
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* it does not refer to a directory,
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* it refers to a directory, but not one for which the user has write
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permission
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a warning is displayed, sys.bytecodebase is set to None and
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generation of bytecode files is suppressed altogether.
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After startup initialization, all runtime references are to
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sys.bytecodebase, not the PYTHONBYTECODEBASE environment variable.
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sys.path is not modified.
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From the above, we see sys.bytecodebase can only take on two valid
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types of values: None or a string referring to a valid directory on
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the system.
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During import, this extension works as follows:
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- The normal search for a module is conducted. The search order is
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roughly: dynamically loaded extension module, Python source file,
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Python bytecode file. The only time this mechanism comes into play
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is if a Python source file is found.
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- Once we've found a source module, an attempt to read a byte-compiled
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file in the same directory is made. (This is the same as before.)
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- If no byte-compiled file is found, an attempt to read a
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byte-compiled file from the augmented directory is made.
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- If bytecode generation is required, the generated bytecode is wrtten
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to the augmented directory if possible.
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Note that this PEP is explicitly *not* about providing
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module-by-module or directory-by-directory control over the
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disposition of bytecode files.
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Glossary
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--------
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- "bytecode base" refers to the current setting of
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sys.bytecodebase.
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- "augmented directory" refers to the directory formed from the
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bytecode base and the directory name of the source file.
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- PYTHONBYTECODEBASE refers to the environment variable when necessary
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to distinguish it from "bytecode base".
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Locating bytecode files
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-----------------------
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When the interpreter is searching for a module, it will use sys.path
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as usual. However, when a possible bytecode file is considered, an
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extra probe for a bytecode file may be made. First, a check is made
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for the bytecode file using the directory in sys.path which holds the
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source file (the current behavior). If a valid bytecode file is not
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found there (either one does not exist or exists but is out-of-date)
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and the bytecode base is not None, a second probe is made using the
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directory in sys.path prefixed appropriately by the bytecode base.
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Writing bytecode files
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----------------------
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When the bytecode base is not None, a new bytecode file is written to
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the appropriate augmented directory, never directly to a directory in
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sys.path.
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Defining augmented directories
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------------------------------
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Conceptually, the augmented directory for a bytecode file is the
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directory in which the source file exists prefixed by the bytecode
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base. In a Unix environment this would be::
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pcb = os.path.abspath(sys.bytecodebase)
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if sourcefile[0] == os.sep: sourcefile = sourcefile[1:]
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augdir = os.path.join(pcb, os.path.dirname(sourcefile))
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On Windows, which does not have a single-rooted directory tree, the
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drive letter of the directory containing the source file is treated as
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a directory component after removing the trailing colon. The
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augmented directory is thus derived as ::
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pcb = os.path.abspath(sys.bytecodebase)
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drive, base = os.path.splitdrive(os.path.dirname(sourcefile))
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drive = drive[:-1]
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if base[0] == "\\": base = base[1:]
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augdir = os.path.join(pcb, drive, base)
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Fixing the location of the bytecode base
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----------------------------------------
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During program startup, the value of the PYTHONBYTECODEBASE
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environment variable is made absolute, checked for validity and added
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to the sys module, effectively::
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pcb = os.path.abspath(os.environ["PYTHONBYTECODEBASE"])
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probe = os.path.join(pcb, "foo")
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try:
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open(probe, "w")
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except IOError:
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sys.bytecodebase = None
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else:
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os.unlink(probe)
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sys.bytecodebase = pcb
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This allows the user to specify the bytecode base as a relative path,
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but not have it subject to changes to the current working directory
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during program execution. (I can't imagine you'd want it to move
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around during program execution.)
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There is nothing special about sys.bytecodebase. The user may change
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it at runtime if desired, but normally it will not be modified.
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Rationale
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=========
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In many environments it is not possible for non-root users to write
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into directories containing Python source files. Most of the time,
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this is not a problem as Python source is generally byte compiled
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during installation. However, there are situations where bytecode
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files are either missing or need to be updated. If the directory
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containing the source file is not writable by the current user a
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performance penalty is incurred each time a program importing the
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module is run. [3]_ Warning messages may also be generated in certain
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circumstances. If the directory is writable, nearly simultaneous
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attempts attempts to write the bytecode file by two separate processes
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may occur, resulting in file corruption. [4]_
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In environments with RAM disks available, it may be desirable for
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performance reasons to write bytecode files to a directory on such a
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disk. Similarly, in environments where Python source code resides on
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network file systems, it may be desirable to cache bytecode files on
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local disks.
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Alternatives
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============
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The only other alternative proposed so far [1]_ seems to be to add a
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-R flag to the interpreter to disable writing bytecode files
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altogether. This proposal subsumes that. Adding a command-line
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option is certainly possible, but is probably not sufficient, as the
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interpreter's command line is not readily available during
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installation (early during program startup???).
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Issues
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======
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- Interpretation of a module's __file__ attribute. I believe the
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__file__ attribute of a module should reflect the true location of
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the bytecode file. If people want to locate a module's source code,
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they should use imp.find_module(module).
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- Security - What if root has PYTHONBYTECODEBASE set? Yes, this can
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present a security risk, but so can many other things the root user
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does. The root user should probably not set PYTHONBYTECODEBASE
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except possibly during installation. Still, perhaps this problem
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can be minimized. When running as root the interpreter should check
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to see if PYTHONBYTECODEBASE refers to a directory which is writable
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by anyone other than root. If so, it could raise an exception or
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warning and set sys.bytecodebase to None. Or, see the next item.
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- More security - What if PYTHONBYTECODEBASE refers to a general
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directory (say, /tmp)? In this case, perhaps loading of a
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preexisting bytecode file should occur only if the file is owned by
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the current user or root. (Does this matter on Windows?)
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- The interaction of this PEP with import hooks has not been
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considered yet. In fact, the best way to implement this idea might
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be as an import hook. See PEP 302. [5]_
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- In the current (pre-PEP 304) environment, it is safe to delete a
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source file after the corresponding bytecode file has been created,
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since they reside in the same directory. With PEP 304 as currently
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defined, this is not the case. A bytecode file in the augmented
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directory is only considered when the source file is present and it
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thus never considered when looking for module files ending in
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".pyc". I think this behavior may have to change.
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Examples
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========
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In the examples which follow, the urllib source code resides in
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/usr/lib/python2.3/urllib.py and /usr/lib/python2.3 is in sys.path but
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is not writable by the current user.
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- The bytecode base is /tmp. /usr/lib/python2.3/urllib.pyc exists and
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is valid. When urllib is imported, the contents of
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/usr/lib/python2.3/urllib.pyc are used. The augmented directory is
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not consulted. No other bytecode file is generated.
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- The bytecode base is /tmp. /usr/lib/python2.3/urllib.pyc exists,
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but is out-of-date. When urllib is imported, the generated bytecode
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file is written to urllib.pyc in the augmented directory which has
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the value /tmp/usr/lib/python2.3. Intermediate directories will be
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created as needed.
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- The bytecode base is None. No urllib.pyc file is found. When
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urllib is imported, no bytecode file is written.
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- The bytecode base is /tmp. No urllib.pyc file is found. When
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urllib is imported, the generated bytecode file is written to the
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augmented directory which has the value /tmp/usr/lib/python2.3.
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Intermediate directories will be created as needed.
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- At startup, PYTHONBYTECODEBASE is /tmp/foobar, which does not exist.
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A warning is emitted, sys.bytecodebase is set to None and no
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bytecode files are written during program execution unless
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sys.bytecodebase is later changed to refer to a valid,
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writable directory.
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- At startup, PYTHONBYTECODEBASE is set to /, which exists, but is not
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writable by the current user. A warning is emitted,
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sys.bytecodebase is set to None and no bytecode files are
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written during program execution unless sys.bytecodebase is
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later changed to refer to a valid, writable directory. Note that
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even though the augmented directory constructed for a particular
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bytecode file may be writable by the current user, what counts is
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that the bytecode base directory itself is writable.
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- At startup PYTHONBYTECODEBASE is set to the empty string.
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sys.bytecodebase is set to None. No warning is generated, however.
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If no urllib.pyc file is found when urllib is imported, no bytecode
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file is written.
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In the Windows examples which follow, the urllib source code resides
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in ``C:\PYTHON22\urllib.py``. ``C:\PYTHON22`` is in sys.path but is
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not writable by the current user.
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- The bytecode base is set to ``C:\TEMP``. ``C:\PYTHON22\urllib.pyc``
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exists and is valid. When urllib is imported, the contents of
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``C:\PYTHON22\urllib.pyc`` are used. The augmented directory is not
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consulted.
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- The bytecode base is set to ``C:\TEMP``. ``C:\PYTHON22\urllib.pyc``
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exists, but is out-of-date. When urllib is imported, a new bytecode
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file is written to the augmented directory which has the value
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``C:\TEMP\C\PYTHON22``. Intermediate directories will be created as
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needed.
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- At startup PYTHONBYTECODEBASE is set to ``TEMP`` and the current
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working directory at application startup is ``H:\NET``. The
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potential bytecode base is thus ``H:\NET\TEMP``. If this directory
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exists and is writable by the current user, sys.bytecodebase will be
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set to that value. If not, a warning will be emitted and
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sys.bytecodebase will be set to None.
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- The bytecode base is ``C:\TEMP``. No urllib.pyc file is found.
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When urllib is imported, the generated bytecode file is written to
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the augmented directory which has the value ``C:\TEMP\C\PYTHON22``.
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Intermediate directories will be created as needed.
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Implementation
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==============
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See the patch on Sourceforge. [6]_
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References
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==========
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.. [1] patch 602345, Option for not writing py.[co] files, Klose
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(http://www.python.org/sf/602345)
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.. [2] python-dev thread, Disable writing .py[co], Norwitz
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(http://mail.python.org/pipermail/python-dev/2003-January/032270.html)
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.. [3] Debian bug report, Mailman is writing to /usr in cron, Wegner
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(http://bugs.debian.org/cgi-bin/bugreport.cgi?bug=96111)
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.. [4] python-dev thread, Parallel pyc construction, Dubois
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(http://mail.python.org/pipermail/python-dev/2003-January/032060.html)
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.. [5] PEP 302, New Import Hooks, van Rossum and Moore
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(http://www.python.org/dev/peps/pep-0302)
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.. [6] patch 677103, PYTHONBYTECODEBASE patch (PEP 304), Montanaro
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(http://www.python.org/sf/677103)
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Copyright
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=========
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This document has been placed in the public domain.
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..
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Local Variables:
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mode: indented-text
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indent-tabs-mode: nil
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sentence-end-double-space: t
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fill-column: 70
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End:
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