`sys` — System-specific parameters and functions¶

This module provides access to some variables used or maintained by theinterpreter and to functions that interact strongly with the interpreter. It isalways available.

sys.abiflags¶: On POSIX systems where Python was built with the standardconfigurescript, this contains the ABI flags as specified byPEP 3149.
Changed in version 3.8:Default flags became an empty string (m flag for pymalloc has beenremoved).
New in version 3.2.

sys.addaudithook(hook)¶

Append the callablehook to the list of active auditing hooks for thecurrent (sub)interpreter.

When an auditing event is raised through thesys.audit() function, eachhook will be called in the order it was added with the event name and thetuple of arguments. Native hooks added byPySys_AddAuditHook() arecalled first, followed by hooks added in the current (sub)interpreter. Hookscan then log the event, raise an exception to abort the operation,or terminate the process entirely.

Note that audit hooks are primarily for collecting information about internalor otherwise unobservable actions, whether by Python or libraries written inPython. They are not suitable for implementing a “sandbox”. In particular,malicious code can trivially disable or bypass hooks added using thisfunction. At a minimum, any security-sensitive hooks must be added using theC APIPySys_AddAuditHook() before initialising the runtime, and anymodules allowing arbitrary memory modification (such asctypes) shouldbe completely removed or closely monitored.

Callingsys.addaudithook() will itself raise an auditing eventnamedsys.addaudithook with no arguments. If anyexisting hooks raise an exception derived fromRuntimeError, thenew hook will not be added and the exception suppressed. As a result,callers cannot assume that their hook has been added unless they controlall existing hooks.

See theaudit events table for all events raised byCPython, andPEP 578 for the original design discussion.

New in version 3.8.

Changed in version 3.8.1:Exceptions derived fromException but notRuntimeErrorare no longer suppressed.

CPython implementation detail: When tracing is enabled (seesettrace()), Python hooks are onlytraced if the callable has a__cantrace__ member that is set to atrue value. Otherwise, trace functions will skip the hook.

sys.argv¶

The list of command line arguments passed to a Python script.argv[0] is thescript name (it is operating system dependent whether this is a full pathname ornot). If the command was executed using the-c command line option tothe interpreter,argv[0] is set to the string'-c'. If no script namewas passed to the Python interpreter,argv[0] is the empty string.

To loop over the standard input, or the list of files given on thecommand line, see thefileinput module.

Attribute	Explanation
`emscripten_version`	Emscripten version as tuple of ints(major, minor, micro), e.g.`(3,1,8)`.
`runtime`	Runtime string, e.g. browser user agent,`'Node.jsv14.18.2'`, or`'UNKNOWN'`.
`pthreads`	`True` if Python is compiled withEmscripten pthreads support.
`shared_memory`	`True` if Python is compiled with sharedmemory support.

See also

Thesys.unraisablehook() function handles unraisable exceptionsand thethreading.excepthook() function handles exception raisedbythreading.Thread.run().

sys.__breakpointhook__¶
sys.__displayhook__¶
sys.__excepthook__¶
sys.__unraisablehook__¶: These objects contain the original values ofbreakpointhook,displayhook,excepthook, andunraisablehook at the start of theprogram. They are saved so thatbreakpointhook,displayhook andexcepthook,unraisablehook can be restored in case they happen toget replaced with broken or alternative objects.
New in version 3.7:__breakpointhook__
New in version 3.8:__unraisablehook__

sys.exception()¶

This function, when called while an exception handler is executing (such asanexcept orexcept* clause), returns the exception instance thatwas caught by this handler. When exception handlers are nested within oneanother, only the exception handled by the innermost handler is accessible.

If no exception handler is executing, this function returnsNone.

New in version 3.11.

sys.exc_info()¶

This function returns the old-style representation of the handledexception. If an exceptione is currently handled (soexception() would returne),exc_info() returns thetuple(type(e),e,e.__traceback__).That is, a tuple containing the type of the exception (a subclass ofBaseException), the exception itself, and atracebackobject which typically encapsulates the callstack at the point where the exception last occurred.

If no exception is being handled anywhere on the stack, this functionreturn a tuple containing threeNone values.

Changed in version 3.11:Thetype andtraceback fields are now derived from thevalue(the exception instance), so when an exception is modified while it isbeing handled, the changes are reflected in the results of subsequentcalls toexc_info().

sys.exec_prefix¶: A string giving the site-specific directory prefix where the platform-dependentPython files are installed; by default, this is also'/usr/local'. This canbe set at build time with the--exec-prefix argument to theconfigure script. Specifically, all configuration files (e.g. thepyconfig.h header file) are installed in the directoryexec_prefix/lib/pythonX.Y/config, and shared library modules areinstalled inexec_prefix/lib/pythonX.Y/lib-dynload, whereX.Yis the version number of Python, for example3.2.
Note
If avirtual environment is in effect, thisvalue will be changed insite.py to point to the virtual environment.The value for the Python installation will still be available, viabase_exec_prefix.

sys.executable¶: A string giving the absolute path of the executable binary for the Pythoninterpreter, on systems where this makes sense. If Python is unable to retrievethe real path to its executable,sys.executable will be an empty stringorNone.

sys.exit([arg])¶

Raise aSystemExit exception, signaling an intention to exit the interpreter.

The optional argumentarg can be an integer giving the exit status(defaulting to zero), or another type of object. If it is an integer, zerois considered “successful termination” and any nonzero value is considered“abnormal termination” by shells and the like. Most systems require it to bein the range 0–127, and produce undefined results otherwise. Some systemshave a convention for assigning specific meanings to specific exit codes, butthese are generally underdeveloped; Unix programs generally use 2 for commandline syntax errors and 1 for all other kind of errors. If another type ofobject is passed,None is equivalent to passing zero, and any otherobject is printed tostderr and results in an exit code of 1. Inparticular,sys.exit("someerrormessage") is a quick way to exit aprogram when an error occurs.

Sinceexit() ultimately “only” raises an exception, it will only exitthe process when called from the main thread, and the exception is notintercepted. Cleanup actions specified by finally clauses oftry statementsare honored, and it is possible to intercept the exit attempt at an outer level.

Changed in version 3.6:If an error occurs in the cleanup after the Python interpreterhas caughtSystemExit (such as an error flushing buffered datain the standard streams), the exit status is changed to 120.

sys.flags¶

Thenamed tupleflags exposes the status of command lineflags. The attributes are read only.

attribute	flag
`debug`	`-d`
`inspect`	`-i`
`interactive`	`-i`
`isolated`	`-I`
`optimize`	`-O` or`-OO`
`dont_write_bytecode`	`-B`
`no_user_site`	`-s`
`no_site`	`-S`
`ignore_environment`	`-E`
`verbose`	`-v`
`bytes_warning`	`-b`
`quiet`	`-q`
`hash_randomization`	`-R`
`dev_mode`	`-Xdev` (Python Development Mode)
`utf8_mode`	`-Xutf8`
`safe_path`	`-P`
`int_max_str_digits`	`-Xint_max_str_digits` (integer string conversion length limitation)

Changed in version 3.2:Addedquiet attribute for the new-q flag.

New in version 3.2.3:Thehash_randomization attribute.

Changed in version 3.3:Removed obsoletedivision_warning attribute.

Changed in version 3.4:Addedisolated attribute for-Iisolated flag.

Changed in version 3.7:Added thedev_mode attribute for the newPython DevelopmentMode and theutf8_mode attribute for the new-Xutf8 flag.

Changed in version 3.11:Added thesafe_path attribute for-P option.

Changed in version 3.11:Added theint_max_str_digits attribute.

sys.float_info¶

Anamed tuple holding information about the float type. Itcontains low level information about the precision and internalrepresentation. The values correspond to the various floating-pointconstants defined in the standard header filefloat.h for the ‘C’programming language; see section 5.2.4.2.2 of the 1999 ISO/IEC C standard[C99], ‘Characteristics of floating types’, for details.

attribute	float.h macro	explanation
`epsilon`	`DBL_EPSILON`	difference between 1.0 and the least valuegreater than 1.0 that is representable as a float See also`math.ulp()`.
`dig`	`DBL_DIG`	maximum number of decimal digits that can befaithfully represented in a float; see below
`mant_dig`	`DBL_MANT_DIG`	float precision: the number of base-`radix`digits in the significand of a float
`max`	`DBL_MAX`	maximum representable positive finite float
`max_exp`	`DBL_MAX_EXP`	maximum integere such that`radix**(e-1)` isa representable finite float
`max_10_exp`	`DBL_MAX_10_EXP`	maximum integere such that`10**e` is in therange of representable finite floats
`min`	`DBL_MIN`	minimum representable positivenormalized float Use`math.ulp(0.0)` to get thesmallest positivedenormalized representablefloat.
`min_exp`	`DBL_MIN_EXP`	minimum integere such that`radix**(e-1)` isa normalized float
`min_10_exp`	`DBL_MIN_10_EXP`	minimum integere such that`10**e` is anormalized float
`radix`	`FLT_RADIX`	radix of exponent representation
`rounds`	`FLT_ROUNDS`	integer representing the rounding mode forfloating-point arithmetic. This reflects thevalue of the system`FLT_ROUNDS` macro atinterpreter startup time:`-1` indeterminable,`0` toward zero,`1` to nearest,`2` toward positive infinity,`3` toward negative infinity All other values for`FLT_ROUNDS` characterizeimplementation-defined rounding behavior.

The attributesys.float_info.dig needs further explanation. Ifs is any string representing a decimal number with at mostsys.float_info.dig significant digits, then convertings to afloat and back again will recover a string representing the same decimalvalue:

>>>importsys>>>sys.float_info.dig15>>>s='3.14159265358979'# decimal string with 15 significant digits>>>format(float(s),'.15g')# convert to float and back -> same value'3.14159265358979'

But for strings with more thansys.float_info.dig significant digits,this isn’t always true:

>>>s='9876543211234567'# 16 significant digits is too many!>>>format(float(s),'.16g')# conversion changes value'9876543211234568'

sys.float_repr_style¶: A string indicating how therepr() function behaves forfloats. If the string has value'short' then for a finitefloatx,repr(x) aims to produce a short string with theproperty thatfloat(repr(x))==x. This is the usual behaviourin Python 3.1 and later. Otherwise,float_repr_style has value'legacy' andrepr(x) behaves in the same way as it did inversions of Python prior to 3.1.
New in version 3.1.

sys.getallocatedblocks()¶

Return the number of memory blocks currently allocated by the interpreter,regardless of their size. This function is mainly useful for trackingand debugging memory leaks. Because of the interpreter’s internalcaches, the result can vary from call to call; you may have to call_clear_type_cache() andgc.collect() to get morepredictable results.

If a Python build or implementation cannot reasonably compute thisinformation,getallocatedblocks() is allowed to return 0 instead.

New in version 3.4.

sys.getandroidapilevel()¶: Return the build time API version of Android as an integer.
Availability: Android.
New in version 3.7.

sys.getdefaultencoding()¶: Return the name of the current default string encoding used by the Unicodeimplementation.

sys.getdlopenflags()¶: Return the current value of the flags that are used fordlopen() calls. Symbolic names for the flag values can befound in theos module (RTLD_xxx constants, e.g.os.RTLD_LAZY).
Availability: Unix.

sys.getfilesystemencoding()¶

Get thefilesystem encoding:the encoding used with thefilesystem error handler to convert between Unicode filenames and bytesfilenames. The filesystem error handler is returned fromgetfilesystemencoding().

For best compatibility, str should be used for filenames in all cases,although representing filenames as bytes is also supported. Functionsaccepting or returning filenames should support either str or bytes andinternally convert to the system’s preferred representation.

os.fsencode() andos.fsdecode() should be used to ensure thatthe correct encoding and errors mode are used.

Thefilesystem encoding and error handler are configured at Pythonstartup by thePyConfig_Read() function: seefilesystem_encoding andfilesystem_errors members ofPyConfig.

Changed in version 3.2:getfilesystemencoding() result cannot beNone anymore.

Changed in version 3.6:Windows is no longer guaranteed to return'mbcs'. SeePEP 529and_enablelegacywindowsfsencoding() for more information.

Changed in version 3.7:Return'utf-8' if thePython UTF-8 Mode isenabled.

sys.getfilesystemencodeerrors()¶

Get thefilesystem error handler: the error handler used with thefilesystem encoding to convert between Unicodefilenames and bytes filenames. The filesystem encoding is returned fromgetfilesystemencoding().

os.fsencode() andos.fsdecode() should be used to ensure thatthe correct encoding and errors mode are used.

Thefilesystem encoding and error handler are configured at Pythonstartup by thePyConfig_Read() function: seefilesystem_encoding andfilesystem_errors members ofPyConfig.

New in version 3.6.

sys.get_int_max_str_digits()¶: Returns the current value for theinteger string conversion lengthlimitation. See alsoset_int_max_str_digits().
New in version 3.11.

sys.getrefcount(object)¶: Return the reference count of theobject. The count returned is generally onehigher than you might expect, because it includes the (temporary) reference asan argument togetrefcount().

sys.getrecursionlimit()¶: Return the current value of the recursion limit, the maximum depth of the Pythoninterpreter stack. This limit prevents infinite recursion from causing anoverflow of the C stack and crashing Python. It can be set bysetrecursionlimit().

sys.getsizeof(object[,default])¶

Return the size of an object in bytes. The object can be any type ofobject. All built-in objects will return correct results, but thisdoes not have to hold true for third-party extensions as it is implementationspecific.

Only the memory consumption directly attributed to the object isaccounted for, not the memory consumption of objects it refers to.

If given,default will be returned if the object does not provide means toretrieve the size. Otherwise aTypeError will be raised.

getsizeof() calls the object’s__sizeof__ method and adds anadditional garbage collector overhead if the object is managed by the garbagecollector.

Seerecursive sizeof recipefor an example of usinggetsizeof() recursively to find the size ofcontainers and all their contents.

sys.getswitchinterval()¶: Return the interpreter’s “thread switch interval”; seesetswitchinterval().
New in version 3.2.

sys._getframe([depth])¶

Return a frame object from the call stack. If optional integerdepth isgiven, return the frame object that many calls below the top of the stack. Ifthat is deeper than the call stack,ValueError is raised. The defaultfordepth is zero, returning the frame at the top of the call stack.

Raises anauditing eventsys._getframe with argumentframe.

CPython implementation detail: This function should be used for internal and specialized purposes only.It is not guaranteed to exist in all implementations of Python.

sys._getframemodulename([depth])¶

Return the name of a module from the call stack. If optional integerdepthis given, return the module that many calls below the top of the stack. Ifthat is deeper than the call stack, or if the module is unidentifiable,None is returned. The default fordepth is zero, returning themodule at the top of the call stack.

Raises anauditing eventsys._getframemodulename with argumentdepth.

CPython implementation detail: This function should be used for internal and specialized purposes only.It is not guaranteed to exist in all implementations of Python.

sys.getprofile()¶: Get the profiler function as set bysetprofile().

sys.gettrace()¶: Get the trace function as set bysettrace().
CPython implementation detail: Thegettrace() function is intended only for implementing debuggers,profilers, coverage tools and the like. Its behavior is part of theimplementation platform, rather than part of the language definition, andthus may not be available in all Python implementations.

sys.getwindowsversion()¶

Return a named tuple describing the Windows versioncurrently running. The named elements aremajor,minor,build,platform,service_pack,service_pack_minor,service_pack_major,suite_mask,product_type andplatform_version.service_pack contains a string,platform_version a 3-tuple and all other values areintegers. The components can also be accessed by name, sosys.getwindowsversion()[0] is equivalent tosys.getwindowsversion().major. For compatibility with priorversions, only the first 5 elements are retrievable by indexing.

platform will be2(VER_PLATFORM_WIN32_NT).

product_type may be one of the following values:

Constant	Meaning
`1(VER_NT_WORKSTATION)`	The system is a workstation.
`2(VER_NT_DOMAIN_CONTROLLER)`	The system is a domaincontroller.
`3(VER_NT_SERVER)`	The system is a server, but nota domain controller.

This function wraps the Win32GetVersionEx() function; see theMicrosoft documentation onOSVERSIONINFOEX() for more informationabout these fields.

platform_version returns the major version, minor version andbuild number of the current operating system, rather than the version thatis being emulated for the process. It is intended for use in logging ratherthan for feature detection.

Note

platform_version derives the version from kernel32.dll which can be of a differentversion than the OS version. Please useplatform module for achieving accurateOS version.

Availability: Windows.

Changed in version 3.2:Changed to a named tuple and addedservice_pack_minor,service_pack_major,suite_mask, andproduct_type.

Changed in version 3.6:Addedplatform_version

sys.get_asyncgen_hooks()¶: Returns anasyncgen_hooks object, which is similar to anamedtuple of the form(firstiter,finalizer),wherefirstiter andfinalizer are expected to be eitherNone orfunctions which take anasynchronous generator iterator as anargument, and are used to schedule finalization of an asynchronousgenerator by an event loop.
New in version 3.6:SeePEP 525 for more details.
Note
This function has been added on a provisional basis (seePEP 411for details.)

sys.get_coroutine_origin_tracking_depth()¶: Get the current coroutine origin tracking depth, as set byset_coroutine_origin_tracking_depth().
New in version 3.7.
Note
This function has been added on a provisional basis (seePEP 411for details.) Use it only for debugging purposes.

sys.hash_info¶

Anamed tuple giving parameters of the numeric hashimplementation. For more details about hashing of numeric types, seeHashing of numeric types.

attribute	explanation
`width`	width in bits used for hash values
`modulus`	prime modulus P used for numeric hash scheme
`inf`	hash value returned for a positive infinity
`nan`	(this attribute is no longer used)
`imag`	multiplier used for the imaginary part of acomplex number
`algorithm`	name of the algorithm for hashing of str, bytes,and memoryview
`hash_bits`	internal output size of the hash algorithm
`seed_bits`	size of the seed key of the hash algorithm

New in version 3.2.

Changed in version 3.4:Addedalgorithm,hash_bits andseed_bits

sys.hexversion¶

The version number encoded as a single integer. This is guaranteed to increasewith each version, including proper support for non-production releases. Forexample, to test that the Python interpreter is at least version 1.5.2, use:

ifsys.hexversion>=0x010502F0:# use some advanced feature...else:# use an alternative implementation or warn the user...

This is calledhexversion since it only really looks meaningful when viewedas the result of passing it to the built-inhex() function. Thenamed tuple sys.version_info may be used for a morehuman-friendly encoding of the same information.

More details ofhexversion can be found atAPI and ABI Versioning.

sys.implementation¶

An object containing information about the implementation of thecurrently running Python interpreter. The following attributes arerequired to exist in all Python implementations.

name is the implementation’s identifier, e.g.'cpython'. The actualstring is defined by the Python implementation, but it is guaranteed to belower case.

version is a named tuple, in the same format assys.version_info. It represents the version of the Pythonimplementation. This has a distinct meaning from the specificversion of the Pythonlanguage to which the currently runninginterpreter conforms, whichsys.version_info represents. Forexample, for PyPy 1.8sys.implementation.version might besys.version_info(1,8,0,'final',0), whereassys.version_infowould besys.version_info(2,7,2,'final',0). For CPython theyare the same value, since it is the reference implementation.

hexversion is the implementation version in hexadecimal format, likesys.hexversion.

cache_tag is the tag used by the import machinery in the filenames ofcached modules. By convention, it would be a composite of theimplementation’s name and version, like'cpython-33'. However, aPython implementation may use some other value if appropriate. Ifcache_tag is set toNone, it indicates that module caching shouldbe disabled.

sys.implementation may contain additional attributes specific tothe Python implementation. These non-standard attributes must start withan underscore, and are not described here. Regardless of its contents,sys.implementation will not change during a run of the interpreter,nor between implementation versions. (It may change between Pythonlanguage versions, however.) SeePEP 421 for more information.

New in version 3.3.

Note

The addition of new required attributes must go through the normal PEPprocess. SeePEP 421 for more information.

sys.int_info¶

Anamed tuple that holds information about Python’s internalrepresentation of integers. The attributes are read only.

Attribute	Explanation
`bits_per_digit`	number of bits held in each digit. Pythonintegers are stored internally in base`2**int_info.bits_per_digit`
`sizeof_digit`	size in bytes of the C type used torepresent a digit
`default_max_str_digits`	default value for`sys.get_int_max_str_digits()` when itis not otherwise explicitly configured.
`str_digits_check_threshold`	minimum non-zero value for`sys.set_int_max_str_digits()`,`PYTHONINTMAXSTRDIGITS`, or`-Xint_max_str_digits`.

New in version 3.1.

Changed in version 3.11:Addeddefault_max_str_digits andstr_digits_check_threshold.

sys.__interactivehook__¶

When this attribute exists, its value is automatically called (with noarguments) when the interpreter is launched ininteractive mode. This is done after thePYTHONSTARTUP file isread, so that you can set this hook there. Thesite modulesets this.

Raises anauditing eventcpython.run_interactivehook with the hook object as the argument whenthe hook is called on startup.

New in version 3.4.

sys.intern(string)¶

Enterstring in the table of “interned” strings and return the interned string– which isstring itself or a copy. Interning strings is useful to gain alittle performance on dictionary lookup – if the keys in a dictionary areinterned, and the lookup key is interned, the key comparisons (after hashing)can be done by a pointer compare instead of a string compare. Normally, thenames used in Python programs are automatically interned, and the dictionariesused to hold module, class or instance attributes have interned keys.

Interned strings are not immortal; you must keep a reference to the returnvalue ofintern() around to benefit from it.

sys.is_finalizing()¶: ReturnTrue if the Python interpreter isshutting down,False otherwise.
New in version 3.5.

sys.last_type¶

sys.last_value¶

sys.last_traceback¶

These three variables are not always defined; they are set when an exception isnot handled and the interpreter prints an error message and a stack traceback.Their intended use is to allow an interactive user to import a debugger moduleand engage in post-mortem debugging without having to re-execute the commandthat caused the error. (Typical use isimportpdb;pdb.pm() to enter thepost-mortem debugger; seepdb module formore information.)

The meaning of the variables is the same as that of the return values fromexc_info() above.

sys.maxsize¶: An integer giving the maximum value a variable of typePy_ssize_t cantake. It’s usually2**31-1 on a 32-bit platform and2**63-1 on a64-bit platform.

sys.maxunicode¶: An integer giving the value of the largest Unicode code point,i.e.1114111 (0x10FFFF in hexadecimal).
Changed in version 3.3:BeforePEP 393,sys.maxunicode used to be either0xFFFFor0x10FFFF, depending on the configuration option that specifiedwhether Unicode characters were stored as UCS-2 or UCS-4.

sys.meta_path¶

A list ofmeta path finder objects that have theirfind_spec() methods called to see if oneof the objects can find the module to be imported. By default, it holds entriesthat implement Python’s default import semantics. Thefind_spec() method is called with atleast the absolute name of the module being imported. If the module to beimported is contained in a package, then the parent package’s__path__attribute is passed in as a second argument. The method returns amodule spec, orNone if the module cannot be found.

See also

importlib.abc.MetaPathFinder: The abstract base class defining the interface of finder objects onmeta_path.
importlib.machinery.ModuleSpec: The concrete class whichfind_spec() should returninstances of.

Changed in version 3.4:Module specs were introduced in Python 3.4, byPEP 451. Earlier versions of Python looked for a method calledfind_module().This is still called as a fallback if ameta_path entry doesn’thave afind_spec() method.

sys.modules¶: This is a dictionary that maps module names to modules which have already beenloaded. This can be manipulated to force reloading of modules and other tricks.However, replacing the dictionary will not necessarily work as expected anddeleting essential items from the dictionary may cause Python to fail. Ifyou want to iterate over this global dictionary always usesys.modules.copy() ortuple(sys.modules) to avoid exceptions as itssize may change during iteration as a side effect of code or activity inother threads.

sys.orig_argv¶

The list of the original command line arguments passed to the Pythonexecutable.

See also

Modulesite This describes how to use .pth files toextendsys.path.

sys.path_hooks¶

A list of callables that take a path argument to try to create afinder for the path. If a finder can be created, it is to bereturned by the callable, else raiseImportError.

Originally specified inPEP 302.

sys.path_importer_cache¶

A dictionary acting as a cache forfinder objects. The keys arepaths that have been passed tosys.path_hooks and the values arethe finders that are found. If a path is a valid file system path but nofinder is found onsys.path_hooks thenNone isstored.

Originally specified inPEP 302.

Changed in version 3.3:None is stored instead ofimp.NullImporter when no finderis found.

sys.platform¶

This string contains a platform identifier that can be used to appendplatform-specific components tosys.path, for instance.

For Unix systems, except on Linux and AIX, this is the lowercased OS name asreturned byuname-s with the first part of the version as returned byuname-r appended, e.g.'sunos5' or'freebsd8',at the timewhen Python was built. Unless you want to test for a specific systemversion, it is therefore recommended to use the following idiom:

ifsys.platform.startswith('freebsd'):# FreeBSD-specific code here...elifsys.platform.startswith('linux'):# Linux-specific code here...elifsys.platform.startswith('aix'):# AIX-specific code here...

For other systems, the values are:

System	`platform` value
AIX	`'aix'`
Emscripten	`'emscripten'`
Linux	`'linux'`
WASI	`'wasi'`
Windows	`'win32'`
Windows/Cygwin	`'cygwin'`
macOS	`'darwin'`

Changed in version 3.3:On Linux,sys.platform doesn’t contain the major version anymore.It is always'linux', instead of'linux2' or'linux3'. Sinceolder Python versions include the version number, it is recommended toalways use thestartswith idiom presented above.

Changed in version 3.8:On AIX,sys.platform doesn’t contain the major version anymore.It is always'aix', instead of'aix5' or'aix7'. Sinceolder Python versions include the version number, it is recommended toalways use thestartswith idiom presented above.

See also

os.name has a coarser granularity.os.uname() givessystem-dependent version information.

Theplatform module provides detailed checks for thesystem’s identity.

sys.platlibdir¶

Name of the platform-specific library directory. It is used to build thepath of standard library and the paths of installed extension modules.

It is equal to"lib" on most platforms. On Fedora and SuSE, it is equalto"lib64" on 64-bit platforms which gives the followingsys.pathpaths (whereX.Y is the Pythonmajor.minor version):

/usr/lib64/pythonX.Y/:Standard library (likeos.py of theos module)
/usr/lib64/pythonX.Y/lib-dynload/:C extension modules of the standard library (like theerrno module,the exact filename is platform specific)
/usr/lib/pythonX.Y/site-packages/ (always uselib, notsys.platlibdir): Third-party modules
/usr/lib64/pythonX.Y/site-packages/:C extension modules of third-party packages

New in version 3.9.

sys.prefix¶: A string giving the site-specific directory prefix where the platformindependent Python files are installed; on Unix, the default is'/usr/local'. This can be set at build time with the--prefixargument to theconfigure script. SeeInstallation paths for derived paths.
Note
If avirtual environment is in effect, thisvalue will be changed insite.py to point to the virtualenvironment. The value for the Python installation will still beavailable, viabase_prefix.

sys.ps1¶
sys.ps2¶: Strings specifying the primary and secondary prompt of the interpreter. Theseare only defined if the interpreter is in interactive mode. Their initialvalues in this case are'>>>' and'...'. If a non-string object isassigned to either variable, itsstr() is re-evaluated each time theinterpreter prepares to read a new interactive command; this can be used toimplement a dynamic prompt.

sys.setdlopenflags(n)¶: Set the flags used by the interpreter fordlopen() calls, such as whenthe interpreter loads extension modules. Among other things, this will enable alazy resolving of symbols when importing a module, if called assys.setdlopenflags(0). To share symbols across extension modules, call assys.setdlopenflags(os.RTLD_GLOBAL). Symbolic names for the flag valuescan be found in theos module (RTLD_xxx constants, e.g.os.RTLD_LAZY).
Availability: Unix.

sys.set_int_max_str_digits(maxdigits)¶: Set theinteger string conversion length limitation used by this interpreter. See alsoget_int_max_str_digits().
New in version 3.11.

sys.setprofile(profilefunc)¶

Set the system’s profile function, which allows you to implement a Python sourcecode profiler in Python. See chapterThe Python Profilers for more information on thePython profiler. The system’s profile function is called similarly to thesystem’s trace function (seesettrace()), but it is called with different events,for example it isn’t called for each executed line of code (only on call and return,but the return event is reported even when an exception has been set). The function isthread-specific, but there is no way for the profiler to know about context switches betweenthreads, so it does not make sense to use this in the presence of multiple threads. Also,its return value is not used, so it can simply returnNone. Error in the profilefunction will cause itself unset.

Profile functions should have three arguments:frame,event, andarg.frame is the current stack frame.event is a string:'call','return','c_call','c_return', or'c_exception'.arg dependson the event type.

Raises anauditing eventsys.setprofile with no arguments.

The events have the following meaning:

'call': A function is called (or some other code block entered). Theprofile function is called;arg isNone.
'return': A function (or other code block) is about to return. The profilefunction is called;arg is the value that will be returned, orNoneif the event is caused by an exception being raised.
'c_call': A C function is about to be called. This may be an extension function ora built-in.arg is the C function object.
'c_return': A C function has returned.arg is the C function object.
'c_exception': A C function has raised an exception.arg is the C function object.

sys.setrecursionlimit(limit)¶

Set the maximum depth of the Python interpreter stack tolimit. This limitprevents infinite recursion from causing an overflow of the C stack and crashingPython.

The highest possible limit is platform-dependent. A user may need to set thelimit higher when they have a program that requires deep recursion and a platformthat supports a higher limit. This should be done with care, because a too-highlimit can lead to a crash.

If the new limit is too low at the current recursion depth, aRecursionError exception is raised.

Changed in version 3.5.1:ARecursionError exception is now raised if the new limit is toolow at the current recursion depth.

sys.setswitchinterval(interval)¶: Set the interpreter’s thread switch interval (in seconds). This floating-pointvalue determines the ideal duration of the “timeslices” allocated toconcurrently running Python threads. Please note that the actual valuecan be higher, especially if long-running internal functions or methodsare used. Also, which thread becomes scheduled at the end of the intervalis the operating system’s decision. The interpreter doesn’t have itsown scheduler.
New in version 3.2.

sys.settrace(tracefunc)¶

Set the system’s trace function, which allows you to implement a Pythonsource code debugger in Python. The function is thread-specific; for adebugger to support multiple threads, it must register a trace function usingsettrace() for each thread being debugged or usethreading.settrace().

Trace functions should have three arguments:frame,event, andarg.frame is the current stack frame.event is a string:'call','line','return','exception' or'opcode'.arg depends onthe event type.

The trace function is invoked (withevent set to'call') whenever a newlocal scope is entered; it should return a reference to a local tracefunction to be used for the new scope, orNone if the scope shouldn’t betraced.

The local trace function should return a reference to itself (or to anotherfunction for further tracing in that scope), orNone to turn off tracingin that scope.

If there is any error occurred in the trace function, it will be unset, justlikesettrace(None) is called.

The events have the following meaning:

'call': A function is called (or some other code block entered). Theglobal trace function is called;arg isNone; the return valuespecifies the local trace function.
'line': The interpreter is about to execute a new line of code or re-execute thecondition of a loop. The local trace function is called;arg isNone; the return value specifies the new local trace function. SeeObjects/lnotab_notes.txt for a detailed explanation of how thisworks.Per-line events may be disabled for a frame by settingf_trace_lines toFalse on that frame.
'return': A function (or other code block) is about to return. The local tracefunction is called;arg is the value that will be returned, orNoneif the event is caused by an exception being raised. The trace function’sreturn value is ignored.
'exception': An exception has occurred. The local trace function is called;arg is atuple(exception,value,traceback); the return value specifies thenew local trace function.
'opcode': The interpreter is about to execute a new opcode (seedis foropcode details). The local trace function is called;arg isNone; the return value specifies the new local trace function.Per-opcode events are not emitted by default: they must be explicitlyrequested by settingf_trace_opcodes toTrue on theframe.

Note that as an exception is propagated down the chain of callers, an'exception' event is generated at each level.

For more fine-grained usage, it’s possible to set a trace function byassigningframe.f_trace=tracefunc explicitly, rather than relying onit being set indirectly via the return value from an already installedtrace function. This is also required for activating the trace function onthe current frame, whichsettrace() doesn’t do. Note that in orderfor this to work, a global tracing function must have been installedwithsettrace() in order to enable the runtime tracing machinery,but it doesn’t need to be the same tracing function (e.g. it could be alow overhead tracing function that simply returnsNone to disableitself immediately on each frame).

For more information on code and frame objects, refer toThe standard type hierarchy.

Raises anauditing eventsys.settrace with no arguments.

CPython implementation detail: Thesettrace() function is intended only for implementing debuggers,profilers, coverage tools and the like. Its behavior is part of theimplementation platform, rather than part of the language definition, andthus may not be available in all Python implementations.

Changed in version 3.7:'opcode' event type added;f_trace_lines andf_trace_opcodes attributes added to frames

sys.set_asyncgen_hooks(firstiter,finalizer)¶

Accepts two optional keyword arguments which are callables that accept anasynchronous generator iterator as an argument. Thefirstitercallable will be called when an asynchronous generator is iterated for thefirst time. Thefinalizer will be called when an asynchronous generatoris about to be garbage collected.

Raises anauditing eventsys.set_asyncgen_hooks_firstiter with no arguments.

Raises anauditing eventsys.set_asyncgen_hooks_finalizer with no arguments.

Two auditing events are raised because the underlying API consists of twocalls, each of which must raise its own event.

New in version 3.6:SeePEP 525 for more details, and for a reference example of afinalizer method see the implementation ofasyncio.Loop.shutdown_asyncgens inLib/asyncio/base_events.py

Note

This function has been added on a provisional basis (seePEP 411for details.)

sys.set_coroutine_origin_tracking_depth(depth)¶

Allows enabling or disabling coroutine origin tracking. Whenenabled, thecr_origin attribute on coroutine objects willcontain a tuple of (filename, line number, function name) tuplesdescribing the traceback where the coroutine object was created,with the most recent call first. When disabled,cr_origin willbe None.

To enable, pass adepth value greater than zero; this sets thenumber of frames whose information will be captured. To disable,pass setdepth to zero.

This setting is thread-specific.

New in version 3.7.

Note

This function has been added on a provisional basis (seePEP 411for details.) Use it only for debugging purposes.

sys.activate_stack_trampoline(backend,/)¶

Activate the stack profiler trampolinebackend.The only supported backend is"perf".

Availability: Linux.

New in version 3.12.

See also

sys.deactivate_stack_trampoline()¶

Deactivate the current stack profiler trampoline backend.

If no stack profiler is activated, this function has no effect.

Availability: Linux.

New in version 3.12.

sys.is_stack_trampoline_active()¶: ReturnTrue if a stack profiler trampoline is active.
Availability: Linux.
New in version 3.12.

sys._enablelegacywindowsfsencoding()¶

Changes thefilesystem encoding and error handler to ‘mbcs’ and‘replace’ respectively, for consistency with versions of Python prior to3.6.

This is equivalent to defining thePYTHONLEGACYWINDOWSFSENCODINGenvironment variable before launching Python.

Availability: Windows.

New in version 3.6:SeePEP 529 for more details.

sys.stdin¶

sys.stdout¶

sys.stderr¶

File objects used by the interpreter for standardinput, output and errors:

stdin is used for all interactive input (including calls toinput());
stdout is used for the output ofprint() andexpressionstatements and for the prompts ofinput();
The interpreter’s own prompts and its error messages go tostderr.

These streams are regulartext files like thosereturned by theopen() function. Their parameters are chosen asfollows:

The encoding and error handling are is initialized fromPyConfig.stdio_encoding andPyConfig.stdio_errors.
On Windows, UTF-8 is used for the console device. Non-characterdevices such as disk files and pipes use the system localeencoding (i.e. the ANSI codepage). Non-console characterdevices such as NUL (i.e. whereisatty() returnsTrue) use thevalue of the console input and output codepages at startup,respectively for stdin and stdout/stderr. This defaults to thesystemlocale encoding if the process is not initially attachedto a console.
The special behaviour of the console can be overriddenby setting the environment variable PYTHONLEGACYWINDOWSSTDIObefore starting Python. In that case, the console codepages areused as for any other character device.
Under all platforms, you can override the character encoding bysetting thePYTHONIOENCODING environment variable beforestarting Python or by using the new-Xutf8 commandline option andPYTHONUTF8 environment variable. However,for the Windows console, this only applies whenPYTHONLEGACYWINDOWSSTDIO is also set.
When interactive, thestdout stream is line-buffered. Otherwise,it is block-buffered like regular text files. Thestderr streamis line-buffered in both cases. You can make both streams unbufferedby passing the-u command-line option or setting thePYTHONUNBUFFERED environment variable.

Changed in version 3.9:Non-interactivestderr is now line-buffered instead of fullybuffered.

Note

To write or read binary data from/to the standard streams, use theunderlying binarybuffer object. For example, towrite bytes tostdout, usesys.stdout.buffer.write(b'abc').

However, if you are writing a library (and do not control in whichcontext its code will be executed), be aware that the standard streamsmay be replaced with file-like objects likeio.StringIO whichdo not support thebuffer attribute.

sys.__stdin__¶

sys.__stdout__¶

sys.__stderr__¶

These objects contain the original values ofstdin,stderr andstdout at the start of the program. They are used during finalization,and could be useful to print to the actual standard stream no matter if thesys.std* object has been redirected.

It can also be used to restore the actual files to known working file objectsin case they have been overwritten with a broken object. However, thepreferred way to do this is to explicitly save the previous stream beforereplacing it, and restore the saved object.

Note

Under some conditionsstdin,stdout andstderr as well as theoriginal values__stdin__,__stdout__ and__stderr__ can beNone. It is usually the case for Windows GUI apps that aren’t connectedto a console and Python apps started withpythonw.

sys.stdlib_module_names¶

A frozenset of strings containing the names of standard library modules.

It is the same on all platforms. Modules which are not available onsome platforms and modules disabled at Python build are also listed.All module kinds are listed: pure Python, built-in, frozen and extensionmodules. Test modules are excluded.

For packages, only the main package is listed: sub-packages and sub-modulesare not listed. For example, theemail package is listed, but theemail.mime sub-package and theemail.message sub-module are notlisted.

See also thesys.builtin_module_names list.

New in version 3.10.

sys.thread_info¶

Anamed tuple holding information about the threadimplementation.

Attribute	Explanation
`name`	Name of the thread implementation: `'nt'`: Windows threads `'pthread'`: POSIX threads `'pthread-stubs'`: stub POSIX threads(on WebAssembly platforms without threading support) `'solaris'`: Solaris threads
`lock`	Name of the lock implementation: `'semaphore'`: a lock uses a semaphore `'mutex+cond'`: a lock uses a mutexand a condition variable `None` if this information is unknown
`version`	Name and version of the thread library. It is a string,or`None` if this information is unknown.

Attribute

Explanation

name

Name of the thread implementation:

'nt': Windows threads
'pthread': POSIX threads
'pthread-stubs': stub POSIX threads(on WebAssembly platforms without threading support)
'solaris': Solaris threads

lock

Name of the lock implementation:

'semaphore': a lock uses a semaphore
'mutex+cond': a lock uses a mutexand a condition variable
None if this information is unknown

version

Name and version of the thread library. It is a string,orNone if this information is unknown.

New in version 3.3.

sys.tracebacklimit¶: When this variable is set to an integer value, it determines the maximum numberof levels of traceback information printed when an unhandled exception occurs.The default is1000. When set to0 or less, all traceback informationis suppressed and only the exception type and value are printed.

sys.unraisablehook(unraisable,/)¶

Handle an unraisable exception.

Called when an exception has occurred but there is no way for Python tohandle it. For example, when a destructor raises an exception or duringgarbage collection (gc.collect()).

Theunraisable argument has the following attributes:

exc_type: Exception type.
exc_value: Exception value, can beNone.
exc_traceback: Exception traceback, can beNone.
err_msg: Error message, can beNone.
object: Object causing the exception, can beNone.

The default hook formatserr_msg andobject as:f'{err_msg}:{object!r}'; use “Exception ignored in” error messageiferr_msg isNone.

sys.unraisablehook() can be overridden to control how unraisableexceptions are handled.

Storingexc_value using a custom hook can create a reference cycle. Itshould be cleared explicitly to break the reference cycle when theexception is no longer needed.

Storingobject using a custom hook can resurrect it if it is set to anobject which is being finalized. Avoid storingobject after the customhook completes to avoid resurrecting objects.

See alsoexcepthook() which handles uncaught exceptions.

Raise an auditing eventsys.unraisablehook with argumentshook,unraisable when an exception that cannot be handled occurs.Theunraisable object is the same as what will be passed to the hook.If no hook has been set,hook may beNone.

New in version 3.8.

sys.version¶: A string containing the version number of the Python interpreter plus additionalinformation on the build number and compiler used. This string is displayedwhen the interactive interpreter is started. Do not extract version informationout of it, rather, useversion_info and the functions provided by theplatform module.

sys.api_version¶: The C API version for this interpreter. Programmers may find this useful whendebugging version conflicts between Python and extension modules.

sys.version_info¶: A tuple containing the five components of the version number:major,minor,micro,releaselevel, andserial. All values exceptreleaselevel areintegers; the release level is'alpha','beta','candidate', or'final'. Theversion_info value corresponding to the Python version 2.0is(2,0,0,'final',0). The components can also be accessed by name,sosys.version_info[0] is equivalent tosys.version_info.majorand so on.
Changed in version 3.1:Added named component attributes.

sys.warnoptions¶: This is an implementation detail of the warnings framework; do not modify thisvalue. Refer to thewarnings module for more information on the warningsframework.

sys.winver¶: The version number used to form registry keys on Windows platforms. This isstored as string resource 1000 in the Python DLL. The value is normally themajor and minor versions of the running Python interpreter. It is provided in thesysmodule for informational purposes; modifying this value has no effect on theregistry keys used by Python.
Availability: Windows.

sys._xoptions¶

A dictionary of the various implementation-specific flags passed throughthe-X command-line option. Option names are either mapped totheir values, if given explicitly, or toTrue. Example:

$./python-Xa=b-XcPython 3.2a3+ (py3k, Oct 16 2010, 20:14:50)[GCC 4.4.3] on linux2Type "help", "copyright", "credits" or "license" for more information.>>> import sys>>> sys._xoptions{'a': 'b', 'c': True}

CPython implementation detail: This is a CPython-specific way of accessing options passed through-X. Other implementations may export them through othermeans, or not at all.

New in version 3.2.

Citations

C99: ISO/IEC 9899:1999. “Programming languages – C.” A public draft of this standard is available athttps://www.open-std.org/jtc1/sc22/wg14/www/docs/n1256.pdf.

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