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author | Antoine Pitrou <solipsis@pitrou.net> | 2011-12-03 22:06:50 (GMT) |
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committer | Antoine Pitrou <solipsis@pitrou.net> | 2011-12-03 22:06:50 (GMT) |
commit | c561a9adac579ed88446385775e635da3e55cf83 (patch) | |
tree | 7db09fb3a79203ac56ace8d68420f48f60e9f246 /Doc/faq/design.rst | |
parent | 17bd792cd3efa13c3fd53bc5c8b81768efa748a9 (diff) | |
download | cpython-c561a9adac579ed88446385775e635da3e55cf83.zip cpython-c561a9adac579ed88446385775e635da3e55cf83.tar.gz cpython-c561a9adac579ed88446385775e635da3e55cf83.tar.bz2 |
Break down and refine memory management question
Diffstat (limited to 'Doc/faq/design.rst')
-rw-r--r-- | Doc/faq/design.rst | 75 |
1 files changed, 34 insertions, 41 deletions
diff --git a/Doc/faq/design.rst b/Doc/faq/design.rst index 9e6bebc..d215ab1 100644 --- a/Doc/faq/design.rst +++ b/Doc/faq/design.rst @@ -413,66 +413,59 @@ How does Python manage memory? ------------------------------ The details of Python memory management depend on the implementation. The -standard C implementation of Python uses reference counting to detect -inaccessible objects, and another mechanism to collect reference cycles, +standard implementation of Python, :term:`CPython`, uses reference counting to +detect inaccessible objects, and another mechanism to collect reference cycles, periodically executing a cycle detection algorithm which looks for inaccessible cycles and deletes the objects involved. The :mod:`gc` module provides functions to perform a garbage collection, obtain debugging statistics, and tune the collector's parameters. -Jython relies on the Java runtime so the JVM's garbage collector is used. This -difference can cause some subtle porting problems if your Python code depends on -the behavior of the reference counting implementation. +Other implementations (such as `Jython <http://www.jython.org>`_ or +`PyPy <http://www.pypy.org>`_), however, can rely on a different mechanism +such as a full-blown garbage collector. This difference can cause some +subtle porting problems if your Python code depends on the behavior of the +reference counting implementation. -.. XXX relevant for Python 3? +In some Python implementations, the following code (which is fine in CPython) +will probably run out of file descriptors:: - Sometimes objects get stuck in traceback temporarily and hence are not - deallocated when you might expect. Clear the traceback with:: + for file in very_long_list_of_files: + f = open(file) + c = f.read(1) + +Indeed, using CPython's reference counting and destructor scheme, each new +assignment to *f* closes the previous file. With a traditional GC, however, +those file objects will only get collected (and closed) at varying and possibly +long intervals. + +If you want to write code that will work with any Python implementation, +you should explicitly close the file or use the :keyword:`with` statement; +this will work regardless of memory management scheme:: - import sys - sys.last_traceback = None + for file in very_long_list_of_files: + with open(file) as f: + c = f.read(1) - Tracebacks are used for reporting errors, implementing debuggers and related - things. They contain a portion of the program state extracted during the - handling of an exception (usually the most recent exception). -In the absence of circularities, Python programs do not need to manage memory -explicitly. +Why doesn't CPython use a more traditional garbage collection scheme? +--------------------------------------------------------------------- -Why doesn't Python use a more traditional garbage collection scheme? For one -thing, this is not a C standard feature and hence it's not portable. (Yes, we -know about the Boehm GC library. It has bits of assembler code for *most* -common platforms, not for all of them, and although it is mostly transparent, it -isn't completely transparent; patches are required to get Python to work with -it.) +For one thing, this is not a C standard feature and hence it's not portable. +(Yes, we know about the Boehm GC library. It has bits of assembler code for +*most* common platforms, not for all of them, and although it is mostly +transparent, it isn't completely transparent; patches are required to get +Python to work with it.) Traditional GC also becomes a problem when Python is embedded into other applications. While in a standalone Python it's fine to replace the standard malloc() and free() with versions provided by the GC library, an application embedding Python may want to have its *own* substitute for malloc() and free(), -and may not want Python's. Right now, Python works with anything that +and may not want Python's. Right now, CPython works with anything that implements malloc() and free() properly. -In Jython, the following code (which is fine in CPython) will probably run out -of file descriptors long before it runs out of memory:: - - for file in very_long_list_of_files: - f = open(file) - c = f.read(1) - -Using the current reference counting and destructor scheme, each new assignment -to f closes the previous file. Using GC, this is not guaranteed. If you want -to write code that will work with any Python implementation, you should -explicitly close the file or use the :keyword:`with` statement; this will work -regardless of GC:: - - for file in very_long_list_of_files: - with open(file) as f: - c = f.read(1) - -Why isn't all memory freed when Python exits? ---------------------------------------------- +Why isn't all memory freed when CPython exits? +---------------------------------------------- Objects referenced from the global namespaces of Python modules are not always deallocated when Python exits. This may happen if there are circular |