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462 lines
20 KiB
TeX
462 lines
20 KiB
TeX
\section{\module{sys} ---
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System-specific parameters and functions}
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\declaremodule{builtin}{sys}
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\modulesynopsis{Access system-specific parameters and functions.}
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This module provides access to some variables used or maintained by the
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interpreter and to functions that interact strongly with the interpreter.
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It is always available.
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\begin{datadesc}{argv}
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The list of command line arguments passed to a Python script.
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\code{argv[0]} is the script name (it is operating system dependent
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whether this is a full pathname or not). If the command was
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executed using the \programopt{-c} command line option to the
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interpreter, \code{argv[0]} is set to the string \code{'-c'}. If no
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script name was passed to the Python interpreter, \code{argv} has
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zero length.
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\end{datadesc}
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\begin{datadesc}{byteorder}
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An indicator of the native byte order. This will have the value
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\code{'big'} on big-endian (most-signigicant byte first) platforms,
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and \code{'little'} on little-endian (least-significant byte first)
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platforms.
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\versionadded{2.0}
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\end{datadesc}
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\begin{datadesc}{builtin_module_names}
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A tuple of strings giving the names of all modules that are compiled
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into this Python interpreter. (This information is not available in
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any other way --- \code{modules.keys()} only lists the imported
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modules.)
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\end{datadesc}
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\begin{datadesc}{copyright}
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A string containing the copyright pertaining to the Python
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interpreter.
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\end{datadesc}
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\begin{datadesc}{dllhandle}
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Integer specifying the handle of the Python DLL.
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Availability: Windows.
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\end{datadesc}
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\begin{funcdesc}{displayhook}{\var{value}}
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If \var{value} is not \code{None}, this function prints it to
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\code{sys.stdout}, and saves it in \code{__builtin__._}.
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\code{sys.displayhook} is called on the result of evaluating an
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expression entered in an interactive Python session. The display of
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these values can be customized by assigning another one-argument
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function to \code{sys.displayhook}.
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\end{funcdesc}
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\begin{funcdesc}{excepthook}{\var{type}, \var{value}, \var{traceback}}
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This function prints out a given traceback and exception to
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\code{sys.stderr}.
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When an exception is raised and uncaught, the interpreter calls
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\code{sys.excepthook} with three arguments, the exception class,
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exception instance, and a traceback object. In an interactive
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session this happens just before control is returned to the prompt;
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in a Python program this happens just before the program exits. The
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handling of such top-level exceptions can be customized by assigning
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another three-argument function to \code{sys.excepthook}.
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\end{funcdesc}
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\begin{datadesc}{__displayhook__}
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\dataline{__excepthook__}
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These objects contain the original values of \code{displayhook} and
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\code{excepthook} at the start of the program. They are saved so
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that \code{displayhook} and \code{excepthook} can be restored in
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case they happen to get replaced with broken objects.
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\end{datadesc}
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\begin{funcdesc}{exc_info}{}
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This function returns a tuple of three values that give information
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about the exception that is currently being handled. The
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information returned is specific both to the current thread and to
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the current stack frame. If the current stack frame is not handling
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an exception, the information is taken from the calling stack frame,
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or its caller, and so on until a stack frame is found that is
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handling an exception. Here, ``handling an exception'' is defined
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as ``executing or having executed an except clause.'' For any stack
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frame, only information about the most recently handled exception is
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accessible.
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If no exception is being handled anywhere on the stack, a tuple
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containing three \code{None} values is returned. Otherwise, the
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values returned are \code{(\var{type}, \var{value},
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\var{traceback})}. Their meaning is: \var{type} gets the exception
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type of the exception being handled (a string or class object);
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\var{value} gets the exception parameter (its \dfn{associated value}
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or the second argument to \keyword{raise}, which is always a class
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instance if the exception type is a class object); \var{traceback}
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gets a traceback object (see the Reference Manual) which
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encapsulates the call stack at the point where the exception
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originally occurred. \obindex{traceback}
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\strong{Warning:} assigning the \var{traceback} return value to a
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local variable in a function that is handling an exception will
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cause a circular reference. This will prevent anything referenced
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by a local variable in the same function or by the traceback from
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being garbage collected. Since most functions don't need access to
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the traceback, the best solution is to use something like
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\code{type, value = sys.exc_info()[:2]} to extract only the
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exception type and value. If you do need the traceback, make sure
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to delete it after use (best done with a \keyword{try}
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... \keyword{finally} statement) or to call \function{exc_info()} in
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a function that does not itself handle an exception.
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\end{funcdesc}
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\begin{datadesc}{exc_type}
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\dataline{exc_value}
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\dataline{exc_traceback}
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\deprecated {1.5}
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{Use \function{exc_info()} instead.}
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Since they are global variables, they are not specific to the
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current thread, so their use is not safe in a multi-threaded
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program. When no exception is being handled, \code{exc_type} is set
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to \code{None} and the other two are undefined.
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\end{datadesc}
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\begin{datadesc}{exec_prefix}
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A string giving the site-specific directory prefix where the
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platform-dependent Python files are installed; by default, this is
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also \code{'/usr/local'}. This can be set at build time with the
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\longprogramopt{exec-prefix} argument to the \program{configure}
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script. Specifically, all configuration files (e.g. the
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\file{pyconfig.h} header file) are installed in the directory
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\code{exec_prefix + '/lib/python\var{version}/config'}, and shared
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library modules are installed in \code{exec_prefix +
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'/lib/python\var{version}/lib-dynload'}, where \var{version} is
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equal to \code{version[:3]}.
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\end{datadesc}
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\begin{datadesc}{executable}
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A string giving the name of the executable binary for the Python
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interpreter, on systems where this makes sense.
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\end{datadesc}
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\begin{funcdesc}{exit}{\optional{arg}}
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Exit from Python. This is implemented by raising the
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\exception{SystemExit} exception, so cleanup actions specified by
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finally clauses of \keyword{try} statements are honored, and it is
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possible to intercept the exit attempt at an outer level. The
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optional argument \var{arg} can be an integer giving the exit status
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(defaulting to zero), or another type of object. If it is an
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integer, zero is considered ``successful termination'' and any
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nonzero value is considered ``abnormal termination'' by shells and
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the like. Most systems require it to be in the range 0-127, and
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produce undefined results otherwise. Some systems have a convention
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for assigning specific meanings to specific exit codes, but these
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are generally underdeveloped; Unix programs generally use 2 for
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command line syntax errors and 1 for all other kind of errors. If
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another type of object is passed, \code{None} is equivalent to
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passing zero, and any other object is printed to \code{sys.stderr}
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and results in an exit code of 1. In particular,
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\code{sys.exit("some error message")} is a quick way to exit a
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program when an error occurs.
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\end{funcdesc}
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\begin{datadesc}{exitfunc}
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This value is not actually defined by the module, but can be set by
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the user (or by a program) to specify a clean-up action at program
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exit. When set, it should be a parameterless function. This
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function will be called when the interpreter exits. Only one
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function may be installed in this way; to allow multiple functions
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which will be called at termination, use the \refmodule{atexit}
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module. Note: the exit function is not called when the program is
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killed by a signal, when a Python fatal internal error is detected,
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or when \code{os._exit()} is called.
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\end{datadesc}
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\begin{funcdesc}{getdefaultencoding}{}
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Return the name of the current default string encoding used by the
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Unicode implementation.
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\versionadded{2.0}
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\end{funcdesc}
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\begin{funcdesc}{getdlopenflags}{}
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Return the current value of the flags that are used for
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\cfunction{dlopen()} calls. The flag constants are defined in the
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\refmodule{dl} and \module{DLFCN} modules.
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Availability: \UNIX.
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\versionadded{2.2}
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\end{funcdesc}
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\begin{funcdesc}{getrefcount}{object}
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Return the reference count of the \var{object}. The count returned
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is generally one higher than you might expect, because it includes
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the (temporary) reference as an argument to
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\function{getrefcount()}.
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\end{funcdesc}
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\begin{funcdesc}{getrecursionlimit}{}
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Return the current value of the recursion limit, the maximum depth
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of the Python interpreter stack. This limit prevents infinite
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recursion from causing an overflow of the C stack and crashing
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Python. It can be set by \function{setrecursionlimit()}.
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\end{funcdesc}
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\begin{funcdesc}{_getframe}{\optional{depth}}
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Return a frame object from the call stack. If optional integer
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\var{depth} is given, return the frame object that many calls below
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the top of the stack. If that is deeper than the call stack,
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\exception{ValueError} is raised. The default for \var{depth} is
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zero, returning the frame at the top of the call stack.
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This function should be used for internal and specialized purposes
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only.
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\end{funcdesc}
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\begin{datadesc}{hexversion}
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The version number encoded as a single integer. This is guaranteed
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to increase with each version, including proper support for
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non-production releases. For example, to test that the Python
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interpreter is at least version 1.5.2, use:
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\begin{verbatim}
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if sys.hexversion >= 0x010502F0:
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# use some advanced feature
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...
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else:
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# use an alternative implementation or warn the user
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...
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\end{verbatim}
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This is called \samp{hexversion} since it only really looks
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meaningful when viewed as the result of passing it to the built-in
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\function{hex()} function. The \code{version_info} value may be
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used for a more human-friendly encoding of the same information.
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\versionadded{1.5.2}
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\end{datadesc}
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\begin{datadesc}{last_type}
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\dataline{last_value}
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\dataline{last_traceback}
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These three variables are not always defined; they are set when an
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exception is not handled and the interpreter prints an error message
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and a stack traceback. Their intended use is to allow an
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interactive user to import a debugger module and engage in
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post-mortem debugging without having to re-execute the command that
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caused the error. (Typical use is \samp{import pdb; pdb.pm()} to
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enter the post-mortem debugger; see chapter \ref{debugger}, ``The
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Python Debugger,'' for more information.)
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The meaning of the variables is the same as that of the return
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values from \function{exc_info()} above. (Since there is only one
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interactive thread, thread-safety is not a concern for these
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variables, unlike for \code{exc_type} etc.)
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\end{datadesc}
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\begin{datadesc}{maxint}
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The largest positive integer supported by Python's regular integer
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type. This is at least 2**31-1. The largest negative integer is
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\code{-maxint-1} -- the asymmetry results from the use of 2's
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complement binary arithmetic.
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\end{datadesc}
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\begin{datadesc}{modules}
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This is a dictionary that maps module names to modules which have
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already been loaded. This can be manipulated to force reloading of
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modules and other tricks. Note that removing a module from this
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dictionary is \emph{not} the same as calling
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\function{reload()}\bifuncindex{reload} on the corresponding module
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object.
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\end{datadesc}
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\begin{datadesc}{path}
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\indexiii{module}{search}{path}
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A list of strings that specifies the search path for modules.
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Initialized from the environment variable \envvar{PYTHONPATH}, or an
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installation-dependent default.
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The first item of this list, \code{path[0]}, is the directory
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containing the script that was used to invoke the Python
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interpreter. If the script directory is not available (e.g. if the
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interpreter is invoked interactively or if the script is read from
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standard input), \code{path[0]} is the empty string, which directs
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Python to search modules in the current directory first. Notice
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that the script directory is inserted \emph{before} the entries
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inserted as a result of \envvar{PYTHONPATH}.
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\end{datadesc}
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\begin{datadesc}{platform}
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This string contains a platform identifier, e.g. \code{'sunos5'} or
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\code{'linux1'}. This can be used to append platform-specific
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components to \code{path}, for instance.
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\end{datadesc}
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\begin{datadesc}{prefix}
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A string giving the site-specific directory prefix where the
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platform independent Python files are installed; by default, this is
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the string \code{'/usr/local'}. This can be set at build time with
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the \longprogramopt{prefix} argument to the \program{configure}
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script. The main collection of Python library modules is installed
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in the directory \code{prefix + '/lib/python\var{version}'} while
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the platform independent header files (all except \file{pyconfig.h})
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are stored in \code{prefix + '/include/python\var{version}'}, where
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\var{version} is equal to \code{version[:3]}.
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\end{datadesc}
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\begin{datadesc}{ps1}
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\dataline{ps2}
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\index{interpreter prompts}
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\index{prompts, interpreter}
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Strings specifying the primary and secondary prompt of the
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interpreter. These are only defined if the interpreter is in
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interactive mode. Their initial values in this case are
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\code{'>\code{>}> '} and \code{'... '}. If a non-string object is
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assigned to either variable, its \function{str()} is re-evaluated
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each time the interpreter prepares to read a new interactive
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command; this can be used to implement a dynamic prompt.
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\end{datadesc}
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\begin{funcdesc}{setcheckinterval}{interval}
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Set the interpreter's ``check interval''. This integer value
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determines how often the interpreter checks for periodic things such
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as thread switches and signal handlers. The default is \code{10},
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meaning the check is performed every 10 Python virtual instructions.
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Setting it to a larger value may increase performance for programs
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using threads. Setting it to a value \code{<=} 0 checks every
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virtual instruction, maximizing responsiveness as well as overhead.
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\end{funcdesc}
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\begin{funcdesc}{setdefaultencoding}{name}
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Set the current default string encoding used by the Unicode
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implementation. If \var{name} does not match any available
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encoding, \exception{LookupError} is raised. This function is only
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intended to be used by the \refmodule{site} module implementation
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and, where needed, by \module{sitecustomize}. Once used by the
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\refmodule{site} module, it is removed from the \module{sys}
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module's namespace.
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% Note that \refmodule{site} is not imported if
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% the \programopt{-S} option is passed to the interpreter, in which
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% case this function will remain available.
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\versionadded{2.0}
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\end{funcdesc}
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\begin{funcdesc}{setdlopenflags}{n}
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Set the flags used by the interpreter for \cfunction{dlopen()}
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calls, such as when the interpreter loads extension modules. Among
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other things, this will enable a lazy resolving of symbols when
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importing a module, if called as \code{sys.setdlopenflags(0)}. To
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share symbols across extension modules, call as
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\code{sys.setdlopenflags(dl.RTLD_NOW | dl.RTLD_GLOBAL)}. Symbolic
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names for the flag modules can be either found in the \refmodule{dl}
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module, or in the \module{DLFCN} module. If \module{DLFCN} is not
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available, it can be generated from \file{/usr/include/dlfcn.h}
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using the \program{h2py} script.
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Availability: \UNIX.
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\versionadded{2.2}
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\end{funcdesc}
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\begin{funcdesc}{setprofile}{profilefunc}
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Set the system's profile function,\index{profile function} which
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allows you to implement a Python source code profiler in
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Python.\index{profiler} See chapter \ref{profile} for more
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information on the Python profiler. The system's profile function
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is called similarly to the system's trace function (see
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\function{settrace()}), but it isn't called for each executed line
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of code (only on call and return and when an exception occurs).
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Also, its return value is not used, so it can simply return
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\code{None}.
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\end{funcdesc}
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\begin{funcdesc}{setrecursionlimit}{limit}
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Set the maximum depth of the Python interpreter stack to
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\var{limit}. This limit prevents infinite recursion from causing an
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overflow of the C stack and crashing Python.
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The highest possible limit is platform-dependent. A user may need
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to set the limit higher when she has a program that requires deep
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recursion and a platform that supports a higher limit. This should
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be done with care, because a too-high limit can lead to a crash.
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\end{funcdesc}
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\begin{funcdesc}{settrace}{tracefunc}
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Set the system's trace function,\index{trace function} which allows
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you to implement a Python source code debugger in Python. See
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section \ref{debugger-hooks}, ``How It Works,'' in the chapter on
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the Python debugger.\index{debugger}
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\end{funcdesc}
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\begin{datadesc}{stdin}
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\dataline{stdout}
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\dataline{stderr}
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File objects corresponding to the interpreter's standard input,
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output and error streams. \code{stdin} is used for all interpreter
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input except for scripts but including calls to
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\function{input()}\bifuncindex{input} and
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\function{raw_input()}\bifuncindex{raw_input}. \code{stdout} is
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used for the output of \keyword{print} and expression statements and
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for the prompts of \function{input()} and \function{raw_input()}.
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The interpreter's own prompts and (almost all of) its error messages
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go to \code{stderr}. \code{stdout} and \code{stderr} needn't be
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built-in file objects: any object is acceptable as long as it has a
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\method{write()} method that takes a string argument. (Changing
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these objects doesn't affect the standard I/O streams of processes
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executed by \function{os.popen()}, \function{os.system()} or the
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\function{exec*()} family of functions in the \refmodule{os}
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module.)
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\end{datadesc}
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\begin{datadesc}{__stdin__}
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\dataline{__stdout__}
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\dataline{__stderr__}
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These objects contain the original values of \code{stdin},
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\code{stderr} and \code{stdout} at the start of the program. They
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are used during finalization, and could be useful to restore the
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actual files to known working file objects in case they have been
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overwritten with a broken object.
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\end{datadesc}
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\begin{datadesc}{tracebacklimit}
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When this variable is set to an integer value, it determines the
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maximum number of levels of traceback information printed when an
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unhandled exception occurs. The default is \code{1000}. When set
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to \code{0} or less, all traceback information is suppressed and
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only the exception type and value are printed.
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\end{datadesc}
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\begin{datadesc}{version}
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A string containing the version number of the Python interpreter
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plus additional information on the build number and compiler used.
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It has a value of the form \code{'\var{version}
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(\#\var{build_number}, \var{build_date}, \var{build_time})
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[\var{compiler}]'}. The first three characters are used to identify
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the version in the installation directories (where appropriate on
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each platform). An example:
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\begin{verbatim}
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>>> import sys
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>>> sys.version
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'1.5.2 (#0 Apr 13 1999, 10:51:12) [MSC 32 bit (Intel)]'
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\end{verbatim}
|
|
\end{datadesc}
|
|
|
|
\begin{datadesc}{version_info}
|
|
A tuple containing the five components of the version number:
|
|
\var{major}, \var{minor}, \var{micro}, \var{releaselevel}, and
|
|
\var{serial}. All values except \var{releaselevel} are integers;
|
|
the release level is \code{'alpha'}, \code{'beta'},
|
|
\code{'candidate'}, or \code{'final'}. The \code{version_info}
|
|
value corresponding to the Python version 2.0 is \code{(2, 0, 0,
|
|
'final', 0)}.
|
|
\versionadded{2.0}
|
|
\end{datadesc}
|
|
|
|
\begin{datadesc}{winver}
|
|
The version number used to form registry keys on Windows platforms.
|
|
This is stored as string resource 1000 in the Python DLL. The value
|
|
is normally the first three characters of \constant{version}. It is
|
|
provided in the \module{sys} module for informational purposes;
|
|
modifying this value has no effect on the registry keys used by
|
|
Python.
|
|
Availability: Windows.
|
|
\end{datadesc}
|