File "_bootstrap.cpython-37.pyc"

Full Path: /home/attunedd/public_html/byp/izo/con7ext_sym404/rintoar.txt/opt/alt/python37/lib64/python3.7/importlib/__pycache__/_bootstrap.cpython-37.pyc
File size: 28.49 KB
MIME-type: text/x-bytecode.python
Charset: 8 bit

 
Open Edit   Advanced Editor   Back 
B

 fn@sdZdaddZddZiZiZGdddeZGdd	d	ZGd
ddZ	Gdd
d
Z
ddZddZddZ
ddddZddZddZddZddZGd d!d!ZGd"d#d#Zddd$d%d&Zd`d'd(Zd)d*d+d,Zd-d.Zd/d0Zd1d2Zd3d4Zd5d6Zd7d8ZGd9d:d:ZGd;d<d<ZGd=d>d>Z d?d@Z!dAdBZ"dadCdDZ#dEdFZ$dGZ%e%dHZ&dIdJZ'e(Z)dKdLZ*dbdNdOZ+d)dPdQdRZ,dSdTZ-dcdVdWZ.dXdYZ/dZd[Z0d\d]Z1d^d_Z2dS)daSCore implementation of import.

This module is NOT meant to be directly imported! It has been designed such
that it can be bootstrapped into Python as the implementation of import. As
such it requires the injection of specific modules and attributes in order to
work. One should use importlib as the public-facing version of this module.

NcCs<x(dD] }t||rt||t||qW|j|jdS)z/Simple substitute for functools.update_wrapper.)
__module____name____qualname____doc__N)hasattrsetattrgetattr__dict__update)newoldreplacer
9/opt/alt/python37/lib64/python3.7/importlib/_bootstrap.py_wraps

rcCstt|S)N)typesys)namer
r
r_new_module#src@seZdZdS)_DeadlockErrorN)rrrr
r
r
rr0src@s8eZdZdZddZddZddZdd	Zd
dZdS)
_ModuleLockzA recursive lock implementation which is able to detect deadlocks
    (e.g. thread 1 trying to take locks A then B, and thread 2 trying to
    take locks B then A).
    cCs0t|_t|_||_d|_d|_d|_dS)N)_thread
allocate_locklockwakeuprownercountwaiters)selfrr
r
r__init__:s

z_ModuleLock.__init__cCs@t}|j}x,t|}|dkr&dS|j}||krdSqWdS)NFT)r	get_identr_blocking_onget)rmetidrr
r
rhas_deadlockBs
z_ModuleLock.has_deadlockc	Cst}|t|<zx|j`|jdks0|j|krH||_|jd7_dS|r\td||j	drv|j
d7_
WdQRX|j	|jqWWdt|=XdS)z
        Acquire the module lock.  If a potential deadlock is detected,
        a _DeadlockError is raised.
        Otherwise, the lock is always acquired and True is returned.
        rTzdeadlock detected by %rFN)rr r!rrrr%rracquirerrelease)rr$r
r
rr'Ns 
z_ModuleLock.acquirec	Cszt}|jb|j|kr"td|jdks0t|jd8_|jdkrld|_|jrl|jd8_|j	WdQRXdS)Nzcannot release un-acquired lockrr&)
rr rrRuntimeErrorrAssertionErrorrrr()rr$r
r
rr(gs

z_ModuleLock.releasecCsd|jt|S)Nz_ModuleLock({!r}) at {})formatrid)rr
r
r__repr__tsz_ModuleLock.__repr__N)	rrrrrr%r'r(r-r
r
r
rr4s
rc@s0eZdZdZddZddZddZdd	Zd
S)_DummyModuleLockzVA simple _ModuleLock equivalent for Python builds without
    multi-threading support.cCs||_d|_dS)Nr)rr)rrr
r
rr|sz_DummyModuleLock.__init__cCs|jd7_dS)Nr&T)r)rr
r
rr'sz_DummyModuleLock.acquirecCs$|jdkrtd|jd8_dS)Nrzcannot release un-acquired lockr&)rr))rr
r
rr(s
z_DummyModuleLock.releasecCsd|jt|S)Nz_DummyModuleLock({!r}) at {})r+rr,)rr
r
rr-sz_DummyModuleLock.__repr__N)rrrrrr'r(r-r
r
r
rr.xs
r.c@s$eZdZddZddZddZdS)_ModuleLockManagercCs||_d|_dS)N)_name_lock)rrr
r
rrsz_ModuleLockManager.__init__cCst|j|_|jdS)N)_get_module_lockr0r1r')rr
r
r	__enter__sz_ModuleLockManager.__enter__cOs|jdS)N)r1r()rargskwargsr
r
r__exit__sz_ModuleLockManager.__exit__N)rrrrr3r6r
r
r
rr/sr/cCstzjyt|}Wntk
r0d}YnX|dkrptdkrLt|}nt|}|fdd}t||t|<Wdt	X|S)zGet or create the module lock for a given module name.

    Acquire/release internally the global import lock to protect
    _module_locks.NcSs0tzt||krt|=WdtXdS)N)_impacquire_lock
_module_locksr"release_lock)refrr
r
rcbs

z_get_module_lock.<locals>.cb)
r7r8r9KeyErrorrr.r_weakrefr;r:)rrr<r
r
rr2s


r2cCs6t|}y|Wntk
r(Yn
X|dS)zAcquires then releases the module lock for a given module name.

    This is used to ensure a module is completely initialized, in the
    event it is being imported by another thread.
    N)r2r'rr()rrr
r
r_lock_unlock_modulesr?cOs
|||S)a.remove_importlib_frames in import.c will always remove sequences
    of importlib frames that end with a call to this function

    Use it instead of a normal call in places where including the importlib
    frames introduces unwanted noise into the traceback (e.g. when executing
    module code)
    r
)fr4kwdsr
r
r_call_with_frames_removedsrBr&)	verbositycGs6tjj|kr2|dsd|}t|j|tjddS)z=Print the message to stderr if -v/PYTHONVERBOSE is turned on.)#zimport z# )fileN)rflagsverbose
startswithprintr+stderr)messagerCr4r
r
r_verbose_messages
rLcsfdd}t||S)z1Decorator to verify the named module is built-in.cs&|tjkrtd||d||S)Nz{!r} is not a built-in module)r)rbuiltin_module_namesImportErrorr+)rfullname)fxnr
r_requires_builtin_wrappers

z4_requires_builtin.<locals>._requires_builtin_wrapper)r)rPrQr
)rPr_requires_builtins
rRcsfdd}t||S)z/Decorator to verify the named module is frozen.cs&t|std||d||S)Nz{!r} is not a frozen module)r)r7	is_frozenrNr+)rrO)rPr
r_requires_frozen_wrappers

z2_requires_frozen.<locals>._requires_frozen_wrapper)r)rPrTr
)rPr_requires_frozens
rUcCs>t||}|tjkr2tj|}t||tj|St|SdS)zLoad the specified module into sys.modules and return it.

    This method is deprecated.  Use loader.exec_module instead.

    N)spec_from_loaderrmodules_exec_load)rrOspecmoduler
r
r_load_module_shims




r\cCst|dd}t|dr6y
||Stk
r4YnXy
|j}Wntk
rTYnX|dk	rft|Sy
|j}Wntk
rd}YnXy
|j}Wn2tk
r|dkrd	|Sd	||SYnXd	||SdS)N
__loader__module_repr?z
<module {!r}>z<module {!r} ({!r})>z<module {!r} from {!r}>)
rrr^	Exception__spec__AttributeError_module_repr_from_specr__file__r+)r[loaderrZrfilenamer
r
r_module_repr
s.






rgc@s$eZdZddZddZddZdS)_installed_safelycCs||_|j|_dS)N)_modulera_spec)rr[r
r
rr3sz_installed_safely.__init__cCsd|j_|jtj|jj<dS)NT)rj
_initializingrirrWr)rr
r
rr37sz_installed_safely.__enter__cGsbzR|j}tdd|Dr@ytj|j=WqPtk
r<YqPXntd|j|jWdd|j_XdS)Ncss|]}|dk	VqdS)Nr
).0argr
r
r	<genexpr>Asz-_installed_safely.__exit__.<locals>.<genexpr>zimport {!r} # {!r}F)	rjanyrrWrr=rLrerk)rr4rZr
r
rr6>sz_installed_safely.__exit__N)rrrrr3r6r
r
r
rrh1srhc@sreZdZdZddddddZddZdd	Zed
dZej	ddZed
dZ
eddZej	ddZdS)
ModuleSpecaThe specification for a module, used for loading.

    A module's spec is the source for information about the module.  For
    data associated with the module, including source, use the spec's
    loader.

    `name` is the absolute name of the module.  `loader` is the loader
    to use when loading the module.  `parent` is the name of the
    package the module is in.  The parent is derived from the name.

    `is_package` determines if the module is considered a package or
    not.  On modules this is reflected by the `__path__` attribute.

    `origin` is the specific location used by the loader from which to
    load the module, if that information is available.  When filename is
    set, origin will match.

    `has_location` indicates that a spec's "origin" reflects a location.
    When this is True, `__file__` attribute of the module is set.

    `cached` is the location of the cached bytecode file, if any.  It
    corresponds to the `__cached__` attribute.

    `submodule_search_locations` is the sequence of path entries to
    search when importing submodules.  If set, is_package should be
    True--and False otherwise.

    Packages are simply modules that (may) have submodules.  If a spec
    has a non-None value in `submodule_search_locations`, the import
    system will consider modules loaded from the spec as packages.

    Only finders (see importlib.abc.MetaPathFinder and
    importlib.abc.PathEntryFinder) should modify ModuleSpec instances.

    N)originloader_state
is_packagecCs6||_||_||_||_|r gnd|_d|_d|_dS)NF)rrerqrrsubmodule_search_locations
_set_fileattr_cached)rrrerqrrrsr
r
rrqszModuleSpec.__init__cCsfd|jd|jg}|jdk	r4|d|j|jdk	rP|d|jd|jjd|S)Nz	name={!r}zloader={!r}zorigin={!r}zsubmodule_search_locations={}z{}({})z, )	r+rrerqappendrt	__class__rjoin)rr4r
r
rr-}s



zModuleSpec.__repr__cCsf|j}yF|j|jkoL|j|jkoL|j|jkoL||jkoL|j|jkoL|j|jkStk
r`dSXdS)NF)rtrrerqcachedhas_locationrb)rothersmslr
r
r__eq__s
zModuleSpec.__eq__cCs:|jdkr4|jdk	r4|jr4tdkr&tt|j|_|jS)N)rvrqru_bootstrap_externalNotImplementedError_get_cached)rr
r
rrzs
zModuleSpec.cachedcCs
||_dS)N)rv)rrzr
r
rrzscCs$|jdkr|jddS|jSdS)z The name of the module's parent.N.r)rtr
rpartition)rr
r
rparents
zModuleSpec.parentcCs|jS)N)ru)rr
r
rr{szModuleSpec.has_locationcCst||_dS)N)boolru)rvaluer
r
rr{s)rrrrrr-r~propertyrzsetterrr{r
r
r
rrpLs#
	rp)rqrscCst|drJtdkrttj}|dkr0|||dS|r8gnd}||||dS|dkrt|dry||}Wqtk
rd}YqXnd}t||||dS)z5Return a module spec based on various loader methods.get_filenameN)re)rertrsF)rqrs)rrrspec_from_file_locationrsrNrp)rrerqrsrsearchr
r
rrVs"

rVcCs8y
|j}Wntk
rYnX|dk	r,|S|j}|dkrZy
|j}Wntk
rXYnXy
|j}Wntk
r|d}YnX|dkr|dkry
|j}Wqtk
rd}YqXn|}y
|j}Wntk
rd}YnXyt|j}Wntk
rd}YnXt	|||d}|dkr"dnd|_
||_||_|S)N)rqFT)
rarbrr]rd_ORIGIN
__cached__list__path__rprurzrt)r[rerqrZrlocationrzrtr
r
r_spec_from_modulesH







rF)overridecCs|st|dddkr6y|j|_Wntk
r4YnX|sJt|dddkr|j}|dkr|jdk	rtdkrnttj}|	|}|j|_
||_d|_y
||_Wntk
rYnX|st|dddkry|j
|_Wntk
rYnXy
||_Wntk
rYnX|s"t|dddkrR|jdk	rRy|j|_Wntk
rPYnX|jr|srt|dddkry|j|_Wntk
rYnX|st|dddkr|jdk	ry|j|_Wntk
rYnX|S)Nrr]__package__rrdr)rrrrbrertrr_NamespaceLoader__new___pathrdr]rrrarr{rqrzr)rZr[rrerr
r
r_init_module_attrss`



rcCsRd}t|jdr|j|}nt|jdr2td|dkrDt|j}t|||S)z+Create a module based on the provided spec.N
create_moduleexec_modulezBloaders that define exec_module() must also define create_module())rrerrNrrr)rZr[r
r
rmodule_from_spec@s

rcCsj|jdkrdn|j}|jdkrB|jdkr2d|Sd||jSn$|jrVd||jSd|j|jSdS)z&Return the repr to use for the module.Nr_z
<module {!r}>z<module {!r} ({!r})>z<module {!r} from {!r}>z<module {!r} ({})>)rrqrer+r{)rZrr
r
rrcQs


rcc	Cs|j}t|tj||k	r6d|}t||d|jdkrj|jdkrXtd|jdt	||dd|St	||ddt
|jds|j|n|j|WdQRXtj|S)zFExecute the spec's specified module in an existing module's namespace.zmodule {!r} not in sys.modules)rNzmissing loaderT)rr)
rr/rrWr"r+rNrertrrload_moduler)rZr[rmsgr
r
rrXbs



rXcCs|j|jtj|j}t|dddkrLy|j|_Wntk
rJYnXt|dddkry(|j|_	t
|ds|jdd|_	Wntk
rYnXt|dddkry
||_Wntk
rYnX|S)Nr]rrrrra)
rerrrrWrr]rbrrrrra)rZr[r
r
r_load_backward_compatiblezs(

rc	Csv|jdk	rt|jdst|St|}t|6|jdkrT|jdkr`td|jdn|j|WdQRXt	j
|jS)Nrzmissing loader)r)rerrrrhrtrNrrrrW)rZr[r
r
r_load_unlockeds



rc	Cst|j
t|SQRXdS)zReturn a new module object, loaded by the spec's loader.

    The module is not added to its parent.

    If a module is already in sys.modules, that existing module gets
    clobbered.

    N)r/rr)rZr
r
rrYs	rYc@seZdZdZeddZedddZedddZed	d
Z	eddZ
eed
dZeeddZ
eeddZeeZdS)BuiltinImporterzMeta path import for built-in modules.

    All methods are either class or static methods to avoid the need to
    instantiate the class.

    cCsd|jS)zsReturn repr for the module.

        The method is deprecated.  The import machinery does the job itself.

        z<module {!r} (built-in)>)r+r)r[r
r
rr^szBuiltinImporter.module_reprNcCs,|dk	rdSt|r$t||ddSdSdS)Nzbuilt-in)rq)r7
is_builtinrV)clsrOpathtargetr
r
r	find_specs

zBuiltinImporter.find_speccCs|||}|dk	r|jSdS)zFind the built-in module.

        If 'path' is ever specified then the search is considered a failure.

        This method is deprecated.  Use find_spec() instead.

        N)rre)rrOrrZr
r
rfind_modules	zBuiltinImporter.find_modulecCs.|jtjkr"td|j|jdttj|S)zCreate a built-in modulez{!r} is not a built-in module)r)rrrMrNr+rBr7create_builtin)rrZr
r
rrs
zBuiltinImporter.create_modulecCsttj|dS)zExec a built-in moduleN)rBr7exec_builtin)rr[r
r
rrszBuiltinImporter.exec_modulecCsdS)z9Return None as built-in modules do not have code objects.Nr
)rrOr
r
rget_codeszBuiltinImporter.get_codecCsdS)z8Return None as built-in modules do not have source code.Nr
)rrOr
r
r
get_sourceszBuiltinImporter.get_sourcecCsdS)z4Return False as built-in modules are never packages.Fr
)rrOr
r
rrsszBuiltinImporter.is_package)NN)N)rrrrstaticmethodr^classmethodrrrrrRrrrsr\rr
r
r
rrs	rc@seZdZdZeddZedddZedddZed	d
Z	eddZ
ed
dZeeddZ
eeddZeeddZdS)FrozenImporterzMeta path import for frozen modules.

    All methods are either class or static methods to avoid the need to
    instantiate the class.

    cCsd|jS)zsReturn repr for the module.

        The method is deprecated.  The import machinery does the job itself.

        z<module {!r} (frozen)>)r+r)mr
r
rr^szFrozenImporter.module_reprNcCs t|rt||ddSdSdS)Nfrozen)rq)r7rSrV)rrOrrr
r
rrs
zFrozenImporter.find_speccCst|r|SdS)z]Find a frozen module.

        This method is deprecated.  Use find_spec() instead.

        N)r7rS)rrOrr
r
rrszFrozenImporter.find_modulecCsdS)z*Use default semantics for module creation.Nr
)rrZr
r
rr(szFrozenImporter.create_modulecCs@|jj}t|s$td||dttj|}t||j	dS)Nz{!r} is not a frozen module)r)
rarr7rSrNr+rBget_frozen_objectexecr)r[rcoder
r
rr,s

zFrozenImporter.exec_modulecCs
t||S)z_Load a frozen module.

        This method is deprecated.  Use exec_module() instead.

        )r\)rrOr
r
rr5szFrozenImporter.load_modulecCs
t|S)z-Return the code object for the frozen module.)r7r)rrOr
r
rr>szFrozenImporter.get_codecCsdS)z6Return None as frozen modules do not have source code.Nr
)rrOr
r
rrDszFrozenImporter.get_sourcecCs
t|S)z.Return True if the frozen module is a package.)r7is_frozen_package)rrOr
r
rrsJszFrozenImporter.is_package)NN)N)rrrrrr^rrrrrrrUrrrsr
r
r
rrs			rc@s eZdZdZddZddZdS)_ImportLockContextz$Context manager for the import lock.cCstdS)zAcquire the import lock.N)r7r8)rr
r
rr3Wsz_ImportLockContext.__enter__cCstdS)z<Release the import lock regardless of any raised exceptions.N)r7r:)rexc_type	exc_value
exc_tracebackr
r
rr6[sz_ImportLockContext.__exit__N)rrrrr3r6r
r
r
rrSsrcCs@|d|d}t||kr$td|d}|r<d||S|S)z2Resolve a relative module name to an absolute one.rr&z2attempted relative import beyond top-level packagerz{}.{})rsplitlen
ValueErrorr+)rpackagelevelbitsbaser
r
r
_resolve_name`s
rcCs"|||}|dkrdSt||S)N)rrV)finderrrrer
r
r_find_spec_legacyisrc

Cstj}|dkrtd|s&tdt|tjk}x|D]}tHy
|j}Wn*t	k
rvt
|||}|dkrrw6YnX||||}WdQRX|dk	r6|s|tjkrtj|}y
|j}	Wnt	k
r|SX|	dkr|S|	Sq6|Sq6WdSdS)zFind a module's spec.Nz5sys.meta_path is None, Python is likely shutting downzsys.meta_path is empty)r	meta_pathrN	_warningswarn
ImportWarningrWrrrbrra)
rrrr	is_reloadrrrZr[rar
r
r
_find_specrs6




rcCslt|tstdt||dkr,td|dkrTt|tsHtdn|sTtd|sh|dkrhtddS)zVerify arguments are "sane".zmodule name must be str, not {}rzlevel must be >= 0z__package__ not set to a stringz6attempted relative import with no known parent packagezEmpty module nameN)
isinstancestr	TypeErrorr+rrrN)rrrr
r
r
_sanity_checks


rzNo module named z{!r}cCsd}|dd}|r|tjkr*t|||tjkr>tj|Stj|}y
|j}Wn2tk
rtd||}t||ddYnXt	||}|dkrtt||dnt
|}|rtj|}t||dd||S)Nrrz; {!r} is not a package)r)rrrWrBrrb_ERR_MSGr+ModuleNotFoundErrorrrr)rimport_rr
parent_modulerrZr[r
r
r_find_and_load_unlockeds*







rc	Cs^t|&tj|t}|tkr*t||SWdQRX|dkrRd|}t||dt||S)zFind and load the module.Nz(import of {} halted; None in sys.modules)r)	r/rrWr"_NEEDS_LOADINGrr+rr?)rrr[rKr
r
r_find_and_loads
rrcCs*t||||dkr t|||}t|tS)a2Import and return the module based on its name, the package the call is
    being made from, and the level adjustment.

    This function represents the greatest common denominator of functionality
    between import_module and __import__. This includes setting __package__ if
    the loader did not.

    r)rrr_gcd_import)rrrr
r
rrs	r)	recursivecCst|drx|D]}t|tsN|r.|jd}nd}td|dt|jq|dkrx|st|drt||j|dd	qt||sd
|j|}yt	||Wqt
k
r}z$|j|krtj
|tdk	rwWdd}~XYqXqW|S)zFigure out what __import__ should return.

    The import_ parameter is a callable which takes the name of module to
    import. It is required to decouple the function from assuming importlib's
    import implementation is desired.

    rz.__all__z
``from list''zItem in z must be str, not *__all__T)rz{}.{}N)rrrrrr_handle_fromlistrr+rBrrrrWr"r)r[fromlistrrxwhere	from_nameexcr
r
rrs*







rcCs|d}|d}|dk	rR|dk	rN||jkrNtjd|d|jdtdd|S|dk	r`|jStjd	tdd|d
}d|kr|dd
}|S)zCalculate what __package__ should be.

    __package__ is not guaranteed to be defined or could be set to None
    to represent that its proper value is unknown.

    rraNz __package__ != __spec__.parent (z != ))
stacklevelzYcan't resolve package from __spec__ or __package__, falling back on __name__ and __path__rrrr)r"rrrrr)globalsrrZr
r
r_calc___package__s



rr
c	Cs|dkrt|}n$|dk	r|ni}t|}t|||}|s|dkrTt|ddS|s\|St|t|dd}tj|jdt|j|Snt||tSdS)aImport a module.

    The 'globals' argument is used to infer where the import is occurring from
    to handle relative imports. The 'locals' argument is ignored. The
    'fromlist' argument specifies what should exist as attributes on the module
    being imported (e.g. ``from module import <fromlist>``).  The 'level'
    argument represents the package location to import from in a relative
    import (e.g. ``from ..pkg import mod`` would have a 'level' of 2).

    rNr)rr	partitionrrrWrr)	rrlocalsrrr[globals_rcut_offr
r
r
__import__2s
 rcCs&t|}|dkrtd|t|S)Nzno built-in module named )rrrNr)rrZr
r
r_builtin_from_nameUs
rc
Cs|a|att}xVtjD]H\}}t||r|tjkr>t}nt|rt	}nqt
||}t||qWtjt}x6dD].}|tjkrt
|}	n
tj|}	t|||	qxWdS)zSetup importlib by importing needed built-in modules and injecting them
    into the global namespace.

    As sys is needed for sys.modules access and _imp is needed to load built-in
    modules, those two modules must be explicitly passed in.

    )rrr>N)r7rrrWitemsrrMrrSrrrrrr)

sys_module_imp_modulemodule_typerr[rerZself_modulebuiltin_namebuiltin_moduler
r
r_setup\s$	








rcCs&t||tjttjtdS)z0Install importers for builtin and frozen modulesN)rrrrwrr)rrr
r
r_installs
rcCs ddl}|a|tjtdS)z9Install importers that require external filesystem accessrN)_frozen_importlib_externalrrrrWr)rr
r
r_install_external_importerssr)NN)N)Nr)NNr
r)3rrrrr9r!r)rrr.r/r2r?rBrLrRrUr\rgrhrprVrrrrcrXrrrYrrrrrrr_ERR_MSG_PREFIXrrobjectrrrrrrrrrrr
r
r
r<module>s`D%$e
-HIM
		
/
&
##