toolchains/llvm/prebuilt/darwin-x86_64/python3/lib/python3.9/cProfile.py - toolchain/prebuilts/ndk-darwin/r23 - Git at Google

 #! /usr/bin/env python3

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

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

 import _lsprof
 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=-1,
         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 open(progname, 'rb') as fp:
                 code = compile(fp.read(), progname, 'exec')
             globs = {
                 '__file__': progname,
                 '__name__': '__main__',
                 '__package__': None,
                 '__cached__': None,
             }
         runctx(code, globs, None, options.outfile, options.sort)
     else:
         parser.print_usage()
     return parser

 # When invoked as main program, invoke the profiler on a script
 if __name__ == '__main__':
     main()
	#! /usr/bin/env python3

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

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

	import _lsprof
	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=-1,
	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 open(progname, 'rb') as fp:
	code = compile(fp.read(), progname, 'exec')
	globs = {
	'__file__': progname,
	'__name__': '__main__',
	'__package__': None,
	'__cached__': None,
	}
	runctx(code, globs, None, options.outfile, options.sort)
	else:
	parser.print_usage()
	return parser

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