def _profile_test():
# runs _test() with profiling, storing results in "norm.profile".
# To see a profile, run e.g.
# python -c 'import pstats; pstats.Stats("norm.profile").strip_dirs().sort_stats("time").print_stats()' | less
import cProfile
import os.path
cProfile.run('_test()', 'norm.profile')
def main(argv=None, interactive=True):
"""
Entry point for setup.py.
Wrapper for a profiler if requested otherwise just call run() directly.
If profiling is enabled we disable interactivity as it would wait for user
input and influence the statistics. However the -r option still works.
"""
# catch and ignore a NumPy deprecation warning
with warnings.catch_warnings(record=True):
warnings.filterwarnings(
"ignore", 'The compiler package is deprecated and removed in '
'Python 3.x.', DeprecationWarning)
np.safe_eval('1')
if '-p' in sys.argv or '--profile' in sys.argv:
try:
import cProfile as Profile
except ImportError:
import Profile
Profile.run('from obspy.scripts.runtests import run; run()',
'obspy.pstats')
import pstats
stats = pstats.Stats('obspy.pstats')
print()
print("Profiling:")
stats.sort_stats('cumulative').print_stats('obspy.', 20)
print(PSTATS_HELP)
else:
errors = run(argv, interactive)
if errors:
sys.exit(1)
def profile_without_initializing_rhymechecker():
#N.B. these don't, work, jus tcopy/paste them into the if name = main block
import cProfile
import pstats
r = RhymeChecker()
cProfile.run("poem_ex_nihilo(rhyme_checker=r, format='haiku', input_text=None, be_random=False)", 'binaryprofile.prof', 'tottime')
pstats.Stats('binaryprofile.prof').sort_stats('tottime').print_stats(.1)
def timeit():
f = 'core(osgrubber().returnall()).returnall()'
import cProfile
cProfile.run(f)
import timeit
t = timeit.Timer(f, 'from __main__ import osgrubber, core')
print(t.timeit(number=100))
def main():
# 'main' method to run script from command line
start = time.time()
args = get_args()
verbose = args['verbose']
if verbose: print "Starting prepareThresholds.py"
# validate arguments
if args['ztotal']<1 or args['zstart']<1:
raise ValueError("Invalid zstart or ztotal option.")
parserExtra = ArgParserExtra(args)
args = parserExtra.validateInputs(['egt', 'config'])
args = parserExtra.validateOutputDir()
profile = parserExtra.enableProfile()
if profile:
pstats = NamedTemporaryFile(prefix="prepareThresholds_",
suffix=".pstats",
dir=args['out'], delete=False).name
cmd = "ThresholdFinder('"+args['egt']+"', '"+args['config']+\
"').runMultiple(%s, %s, '%s', %s, %s)" % \
(args['zstart'], args['ztotal'], args['out'], args['verbose'],
args['force'])
cProfile.run(cmd, pstats)
else:
tf = ThresholdFinder(args['egt'], args['config'])
tf.runMultiple(args['zstart'], args['ztotal'], args['out'],
args['verbose'], args['force'])
duration = time.time() - start
if verbose: print "Finished. Duration:", round(duration, 1), "s"
def open_file(fn=None):
from backends.perf import detect_perf
from backends.ftrace import detect_ftrace
from backends.dummy import detect_dummy
from backends.trace_cmd import detect_tracecmd
if fn == None:
fn = open_dialog()
if fn == None:
return 0
parser = None
for func in detect_ftrace, detect_perf, detect_tracecmd, detect_dummy:
parser = func(fn)
if parser:
break
if prof:
import cProfile
cProfile.run('proj = parser(fn)','timechart_load.prof')
elif fn:
proj = parser(fn)
if proj:
# Create and open the main window.
window = tcWindow(project = proj)
window._ui = window.edit_traits()
# Traits has the bad habbit of autoselecting the first row in the table_editor. Workaround this.
proj.selected = []
return 1
return 0
def main():
"""Parse args and run main daemon function
:return: None
"""
parser = optparse.OptionParser(
"%prog [options]", version="%prog " + __version__)
parser.add_option('-c', '--config',
dest="config_file", metavar="INI-CONFIG-FILE",
help='Config file')
parser.add_option('-d', '--daemon', action='store_true',
dest="is_daemon",
help="Run in daemon mode")
parser.add_option('-r', '--replace', action='store_true',
dest="do_replace",
help="Replace previous running poller")
parser.add_option('--debugfile', dest='debug_file',
help=("Debug file. Default: not used "
"(why debug a bug free program? :) )"))
parser.add_option("-p", "--profile",
dest="profile",
help="Dump a profile file. Need the python cProfile librairy")
opts, args = parser.parse_args()
if args:
parser.error("Does not accept any argument.")
daemon = Poller(debug=opts.debug_file is not None, **opts.__dict__)
if not opts.profile:
daemon.main()
else:
# For perf tuning:
import cProfile
cProfile.run('''daemon.main()''', opts.profile)
def profile_leo():
"""Gather and print statistics about Leo"""
# Work around a Python distro bug: can fail on Ubuntu.
try:
import pstats
except ImportError:
g.es_print('can not import pstats: this is a Python distro bug')
g.es_print('https://bugs.launchpad.net/ubuntu/+source/python-defaults/+bug/123755')
g.es_print('try installing pstats yourself')
return
import cProfile as profile
import leo.core.leoGlobals as g
import os
theDir = os.getcwd()
# On Windows, name must be a plain string. An apparent cProfile bug.
name = str(g.os_path_normpath(g.os_path_join(theDir, 'leoProfile.txt')))
print('profiling to %s' % name)
profile.run('import leo ; leo.run()', name)
p = pstats.Stats(name)
p.strip_dirs()
# p.sort_stats('module','calls','time','name')
p.sort_stats('cumulative', 'time')
#reFiles='leoAtFile.py:|leoFileCommands.py:|leoGlobals.py|leoNodes.py:'
#p.print_stats(reFiles)
p.print_stats()
def profile(code, name='profile_run', sort='cumulative', num=30):
"""Common-use for cProfile"""
cProfile.run(code, name)
stats = pstats.Stats(name)
stats.sort_stats(sort)
stats.print_stats(num)
return stats
def main(): n = 10**8 pylist = range(n) # Basic verification that both methods have the same effect. #v1 = PyListToTIntV(pylist) #assert v1.Len() == n #v2 = SwigPyList(pylist) #assert v2.Len() == n #assert v1 == v2 # Doesn't appear to check #print "Converted %d values\n" % v2.Len() setup = """\ import snap from __main__ import PyListToTIntV, SwigPyList pylist = range(%d) """ % n print "Method 1: Python-to-SNAP conversion:" print "-" * 50 s1 = "v1 = PyListToTIntV(pylist)" # print timeit.timeit(setup=setup, stmt=s1, number=5)/5.0 cProfile.run(setup + s1) print "Method 2: Python-to-SNAP conversion:" print "-" * 50 s2 = "v2 = SwigPyList(pylist)" # print timeit.timeit(setup=setup, stmt=s2, number=5)/5.0 cProfile.run(setup + s2)
def profile_features():
utc_datetime = datetime.datetime.utcnow()
utc_datetime.strftime("%Y-%m-%d-%H%MZ")
profile_log = 'profile_features_' + str(utc_datetime) +".prof"
cProfile.run('run_foo()', profile_log)
def _profile():
global result
prepare()
cProfile.run('run()', 'profile')
p = pstats.Stats('profile')
p.sort_stats('cumulative').print_stats(50)
p.print_callees(20)
def main(interactive=True):
"""
Entry point for setup.py.
Wrapper for a profiler if requested otherwise just call run() directly.
If profiling is enabled we disable interactivity as it would wait for user
input and influence the statistics. However the -r option still works.
"""
if '-p' in sys.argv or '--profile' in sys.argv:
try:
import cProfile as Profile
except ImportError:
import Profile
Profile.run('from obspy.core.scripts.runtests import run; run()',
'obspy.pstats')
import pstats
stats = pstats.Stats('obspy.pstats')
print
print "Profiling:"
stats.sort_stats('cumulative').print_stats('obspy.', 20)
print PSTATS_HELP
else:
errors = run(interactive)
if errors:
sys.exit(1)
def run(self, args=None):
ns = self.parse_arguments(args)
if ns.test:
self.run_tests(ns.test)
return
if ns.infile is None:
input_iter = raw_input_iter()
else:
import fileinput
input_iter = fileinput.input(ns.infile, mode='rU')
cases = test_case_iter(input_iter, self.lines_per_case)
if ns.profile:
import cProfile
profile_file = None if ns.profile == 'stdout' else ns.profile
cProfile.run('self.execute_serially(enumerate(cases, 1))', profile_file)
else:
if ns.threads > 1:
self.threads = ns.threads
executor = self.execute_threaded
else:
executor = self.execute_serially
results = executor(enumerate(cases, 1))
outfile = sys.stdout if ns.outfile is None else open(ns.outfile, 'w')
with outfile:
for i, r in enumerate(results, 1):
self.print_result(i, r, outfile)
def main():
path = '/tmp/stats'
cProfile.run('run()',path)
p = pstats.Stats(path)
# p.sort_stats('time').print_stats(30)
p.print_stats('get_numpy_data')
import ipdb;ipdb.set_trace()
def RunWithProfiler(functionStr, outputpath=None):
import cProfile
import pstats
import sys
if outputpath is None:
outputpath = "C:\\Temp"
ProfilePath = os.path.join(outputpath, 'BuildProfile.pr')
ProfileDir = os.path.dirname(ProfilePath)
if not os.path.exists(ProfileDir):
os.makedirs(ProfileDir)
logger = logging.getLogger(__name__ + '.RunWithProfiler')
logger.info("Profiling: " + functionStr)
try:
cProfile.run(functionStr, ProfilePath)
finally:
if not os.path.exists(ProfilePath):
logger.error("No profile file found" + ProfilePath)
sys.exit()
pr = pstats.Stats(ProfilePath)
if not pr is None:
pr.sort_stats('time')
print(str(pr.print_stats(.1)))
logger.info(str(pr.print_stats(0.1)))
pr.print_callers(.1)
def main():
cProfile.run(
'apply2.aggregate([1, 2, 3, 4, 5, 2, 3, 4, 5, 2, 3, 4, 5, 2, 3, 4, 5, 2, 3, 4, 5], [1, 2, 3, 4, 5, 2, 3, 4, 5, 2, 3, 4, 5, 2, 3, 4, 5, 2, 3, 4, 5], "sum")',
"profile.prof",
)
s = pstats.Stats("profile.prof")
s.strip_dirs().sort_stats("time").print_stats()
def main():
options, args = parser.parse_args()
if options.mysql:
kw = {}
for arg in options.mysql:
name, value = arg.split('=', 1)
kw[name] = value
kw['db'] = args[0]
loader = MySQLStorage(**kw)
else:
dir = args[0]
if not os.path.exists(dir):
print 'Creating %s' % dir
os.makedirs(dir)
if options.stream:
DatabaseConstructor = StreamDatabase
else:
DatabaseConstructor = Database
def loader(name):
return DatabaseConstructor(os.path.join(dir, name + '.db'))
runner = Runner(db_count=options.db_count,
read_portion=options.read,
large_read_portion=options.large_read,
db_loader=loader)
runner.preload(options.preload)
if options.profile:
import cProfile
cProfile.run('runner.run_many(options.reps, options.times)')
else:
runner.run_many(options.reps, options.times)
runner.counter.summarize()
def profile(func, *args, **keywordArgs):
"""
Profile a function call, if profiling is enabled. Change a normal
function call f(a, b, c=3) into profile(f, a, b, c=3), and f will
be profiled. A method call can also be profiled: o.f(a) becomes
profile(o.f, a).
Profiling is enabled by setting DO_PROFILE = True in
utilities.debug. Otherwise, the function is called without
profiling.
Fancier schemes, like profiling the Nth call of a function could
be implemented here, if desired.
"""
global _profile_function
global _profile_args
global _profile_keywordArgs
global DO_PROFILE
_profile_function = func
_profile_args = args
_profile_keywordArgs = keywordArgs
if (DO_PROFILE):
import cProfile
print "Capturing profile..."
cProfile.run('from utilities.debug import _run_profile; _run_profile()', _profile_output_file)
print "...end of profile capture"
else:
_run_profile()
_profile_function = None
_profile_args = None
_profile_keywordArgs = None
def main():
import sys
# Possibly temp. addons path
from os.path import join, dirname, normpath
sys.path.append(normpath(join(dirname(__file__),
"..", "..", "addons", "modules")))
sys.path.append(join(utils.user_resource('SCRIPTS'),
"addons", "modules"))
# fake module to allow:
# from bpy.types import Panel
sys.modules["bpy.app"] = app
sys.modules["bpy.app.handlers"] = app.handlers
sys.modules["bpy.app.translations"] = app.translations
sys.modules["bpy.types"] = types
#~ if "-d" in sys.argv: # Enable this to measure start up speed
if 0:
import cProfile
cProfile.run("import bpy; bpy.utils.load_scripts()", "blender.prof")
import pstats
p = pstats.Stats("blender.prof")
p.sort_stats("cumulative").print_stats(100)
else:
utils.load_scripts()
def func_wrapper(*args, **kwargs):
print 1
cProfile.run(func.__name__, 'restats')
p = pstats.Stats('restats')
p.sort_stats('cumulative').print_stats(10)
def worker(options):
"""
Start background worker process.
"""
workerPid = os.getpid()
if not options.noaffinity:
p = psutil.Process(workerPid)
print "affinity [before]", p.cpu_affinity()
p.cpu_affinity([options.cpuid])
print "affinity [after]", p.cpu_affinity()
factory = EchoServerFactory(options.wsuri)
# The master already created the socket, just start listening and accepting
##
reactor.adoptStreamPort(options.fd, AF_INET, factory)
if not options.silence:
print "Worker started on PID %s using factory %s and protocol %s" % (workerPid, factory, factory.protocol)
# print "Worker %d PYPYLOG=%s" % (workerPid, os.environ.get('PYPYLOG', None))
if options.profile:
statprof.reset(PROFILER_FREQ)
statprof.start()
if not options.silence:
def stat():
if options.profile:
statprof.stop()
output = StringIO.StringIO()
output.write("-" * 80 + "\n")
output.write("Worker Statistics (PID %s)\n\n%s" % (workerPid, factory.stats.stats()))
if options.profile:
output.write("\n")
# format = statprof.DisplayFormats.ByLine
# format = statprof.DisplayFormats.ByMethod
# statprof.display(output, format = format)
statprof.display(output)
output.write("-" * 80 + "\n\n")
sys.stdout.write(output.getvalue())
if options.profile:
statprof.reset(PROFILER_FREQ)
statprof.start()
reactor.callLater(options.interval, stat)
reactor.callLater(options.interval, stat)
if False:
import cProfile
print "RUNNING cProfile"
cProfile.run('reactor.run()')
else:
reactor.run()
def main(top):
top = os.path.abspath(top)
if not exists(pj(top, "abipy")) or not exists(pj(top, "setup.py")):
raise ValueError("top %s is not the top-level abipy directory" % top)
os.chdir(top)
sys.path.insert(0, top)
import cProfile
import pstats
prof_file = pj(top, ".abipy_prof")
# Profile the import of the package
cProfile.run('abipy_import()', prof_file)
p = pstats.Stats(prof_file)
#If you were looking to see what functions were looping a lot, and taking a lot of time, you would do:
p.sort_stats('time').print_stats(10)
#This will sort all the statistics by file name, and then print out statistics for only the class init methods
#(since they are spelled with
#__init__ in them).
#p.sort_stats('file').print_stats('__init__')
return 0
def profile(argv=argv):
from cProfile import run
count, subtree, read_all = argv[1:]
filename = '.'.join(argv)
print(filename)
run("from infi.wmpio.scripts import walk; walk(%s, %s, %s)" % \
(int(count), int(subtree), int(read_all)), filename)
def profile(run_this='generate_cases(1, 90, True, True)'):
cProfile.run(run_this, 'foo.prof')
print '-' * 80
print '-' * 80
print '-' * 80
p = pstats.Stats('foo.prof')
p.strip_dirs().sort_stats(-1).print_stats()
def profile(profiled):
results = tempfile.mktemp(suffix='.out', prefix='pybot-profile',
dir=join(rootdir, 'tmp'))
cProfile.run(profiled, results)
stats = pstats.Stats(results)
stats.sort_stats('cumulative').print_stats(50)
os.remove(results)
def _func(*args, **kwargs):
profile_file_path = os.path.join(os.path.dirname(__file__), '%s_data.txt'%func.__name__)
tuple_par_lst = []
for par_index, par in enumerate(args):
__main__.__dict__['par_%s'%par_index] = par
tuple_par_lst.append('par_%s'%par_index)
tuple_par_str = ','.join(tuple_par_lst)
kw_par_lst = []
for key, value in kwargs.items():
key_value_name = 'key_value_name_%s'%key
__main__.__dict__[key_value_name] = value
kw_par_lst.append("%s=%s"%(key, key_value_name))
kw_par_str = ','.join(kw_par_lst)
func_name = 'test_%s'%func.__name__
__main__.__dict__[func_name] = func
run_str = "%s(%s, %s)"%(func_name, tuple_par_str, kw_par_str)
profile.run(run_str, profile_file_path)
statpf = open(os.path.join(os.path.dirname(__file__), "%s_statics.txt"%func.__name__), 'w+')
p = pstats.Stats(profile_file_path, stream=statpf)
p.strip_dirs().sort_stats("cumulative").print_stats()
statpf.close()
def profileRenderSampleScene_01( size = None,
raytracer = None,
world = None,
logger = None,
outfile = "simple1.bmp" ):
import cProfile
cProfile.run( 'renderSampleScene_01( size, outfile )', 'simple1_prof.txt' )
def test_sort():
def do_csort():
global rv
rv = sorted(test_list,shorter.sort)
return rv
def do_pysort():
global rv
def py_sorter(a,b):
n = cmp(a.value,b.value)
if n == 0:
n = cmp(a.value2,b.value2)
return n
rv = sorted(test_list,py_sorter)
cProfile.run('do_csort()',"Csort")
p = pstats.Stats('Csort')
p.strip_dirs().sort_stats(-1).print_stats()
cProfile.run('do_pysort()',"Pysort")
p = pstats.Stats('Pysort')
p.strip_dirs().sort_stats(-1).print_stats()
print rv[:10]
def run (self):
app = BonsaiServer (self.context)
opts, args = self.context.OptionParser ().parse_args ()
filename = abspath (self.opts.pidFile)
try:
pid = getPidFromFile (filename)
if checkIfPidRunning (pid):
print "A process %s is alredy running using lock file %s. Nothing is done." % (pid, filename)
sys.exit (0)
else:
print "Process %s died unexpectedly. Removing lockfile %s." % (pid, filename)
os.unlink (filename)
except IOError:
# TODO: this should be a warning.
g_Logger.trace ("File %s does not exists. Will be created." % filename)
open (filename, 'w').write (str (os.getpid ()))
self.context.addService (CmdLineArgs (self.context.OptionParser ()))
self.context.addService (Cfg ())
if opts.profile:
import pstats
try:
import cProfile as profile
except ImportError:
import profile
profile.run ('app.start ()', 'bonsaiProfiler')
p = pstats.Stats ('bonsaiProfiler')
p.strip_dirs().sort_stats (-1).print_stats()
else:
app.start ()
ifb.save(opts.outfile)
print("outfile = %s" % opts.outfile)
except Exception as e:
indent = len(program_name) * " "
sys.stderr.write(program_name + ": " + repr(e) + "\n")
sys.stderr.write(indent + " for help use --help")
return 2
if __name__ == "__main__":
if DEBUG:
sys.argv.append("-h")
if TESTRUN:
import doctest
doctest.testmod()
if PROFILE:
import cProfile
import pstats
profile_filename = 'mschxudp_profile.txt'
cProfile.run('main()', profile_filename)
statsfile = open("profile_stats.txt", "wb")
p = pstats.Stats(profile_filename, stream=statsfile)
stats = p.strip_dirs().sort_stats('cumulative')
stats.print_stats()
statsfile.close()
sys.exit(0)
sys.exit(main())
import eos.events # todo: move this to eos initialization?
# noinspection PyUnresolvedReferences
import service.prefetch # noqa: F401
# Make sure the saveddata db exists
if not os.path.exists(config.savePath):
os.mkdir(config.savePath)
eos.db.saveddata_meta.create_all()
from gui.mainFrame import MainFrame
# set title if it wasn't supplied by argument
if options.title is None:
options.title = "pyfa %s - Python Fitting Assistant" % (config.getVersion())
pyfa = wx.App(False)
mf = MainFrame(options.title)
ErrorHandler.SetParent(mf)
if options.profile_path:
profile_path = os.path.join(options.profile_path, 'pyfa-{}.profile'.format(datetime.datetime.now().strftime('%Y%m%d_%H%M%S')))
pyfalog.debug("Starting pyfa with a profiler, saving to {}".format(profile_path))
import cProfile
cProfile.run('pyfa.MainLoop()', profile_path)
else:
pyfa.MainLoop()
# TODO: Add some thread cleanup code here. Right now we bail, and that can lead to orphaned threads or threads not properly exiting.
sys.exit()
def profile(filename_profile):
import cProfile
cProfile.run('run_mat_inv()', filename_profile)
read_profile_result(filename_profile)
o.fatal("exactly one filename expected")
drecurse_top = extra[0]
excluded_paths = parse_excludes(flags, o.fatal)
if not drecurse_top.startswith('/'):
excluded_paths = [relpath(x) for x in excluded_paths]
exclude_rxs = parse_rx_excludes(flags, o.fatal)
it = drecurse.recursive_dirlist([drecurse_top],
opt.xdev,
excluded_paths=excluded_paths,
exclude_rxs=exclude_rxs)
if opt.profile:
import cProfile
def do_it():
for i in it:
pass
cProfile.run('do_it()')
else:
if opt.quiet:
for i in it:
pass
else:
for (name, st) in it:
print name
if saved_errors:
log('WARNING: %d errors encountered.\n' % len(saved_errors))
sys.exit(1)
logger.info('Get business days, excluding holidays')
bus_days = tsf.create_calendar_bus_days(start, end, cal='FX')
print(bus_days)
if False:
logger.info('Remove out of hours')
rng = pandas.date_range('01 Jan 2014', '05 Jan 2014', freq='1min')
intraday_vals = pandas.DataFrame(data=pandas.np.random.randn(len(rng)),
index=rng)
intraday_vals = tsf.resample_time_series(intraday_vals, '60min')
intraday_vals = tsf.remove_out_FX_out_of_hours(intraday_vals)
print(intraday_vals)
if True:
logger.info('Remove holiday days')
rng = pandas.date_range('01 Jan 2007', '05 Jan 2014', freq='1min')
intraday_vals = pandas.DataFrame(data=pandas.np.random.randn(len(rng)),
index=rng)
import cProfile
cProfile.run(
"intraday_vals = tsf.filter_time_series_by_holidays(intraday_vals, 'FX')"
)
print(intraday_vals)
av = sys.argv[1:]
if not av:
main(av)
firstarg = av[0].lower()
if firstarg == "hotshot":
import hotshot
import hotshot.stats
av = av[1:]
prof_log_name = "XXXX.prof"
prof = hotshot.Profile(prof_log_name)
# benchtime, result = prof.runcall(main, *av)
result = prof.runcall(main, *(av, ))
print("result", repr(result))
prof.close()
stats = hotshot.stats.load(prof_log_name)
stats.strip_dirs()
stats.sort_stats('time', 'calls')
stats.print_stats(20)
elif firstarg == "profile":
import cProfile
av = av[1:]
cProfile.run('main(av)', 'YYYY.prof')
import pstats
p = pstats.Stats('YYYY.prof')
p.strip_dirs().sort_stats('cumulative').print_stats(30)
elif firstarg == "psyco":
PSYCO = 1
main(av[1:])
else:
main(av)
class Counter():
def __init__(self) -> None:
self.data = 0
def increase(self):
self.data += 1
return self.data
def decrease(self):
self.data -= 1
return self.data
def sauts(n):
p = Counter()
return sum([(p.decrease() == 0 if getrandbits(1) == 0 else p.increase() == 0) for _ in range(n)])
"""
"""
def test():
from time import time
start = time()
sum([sauts(i) == 0 for i in range(10000)])
print(time() - start)
"""
def test():
return sauts(1000000000)
import cProfile
cProfile.run("test()")
Nx = 100
Ntheta = 1000
T = min(500, xmodule.modelx.model_obs.shape[0])
model_obs = xmodule.modelx.model_obs[0:T, :]
model_states = xmodule.modelx.model_states[0:T, :]
theta = xmodule.modelx.parameters.copy()
theta = theta.reshape(nbparameters, 1)
thetaparticles = repeat(theta, Ntheta).reshape(nbparameters, Ntheta)
print "parallel SIRs starting..."
import cProfile
cProfile.run(
"""
parallelSIRs = ParallelSIRs(Nx, thetaparticles, model_obs, xmodule.modelx, saveLL = True, verbose = True)
parallelSIRs.first_step()
parallelSIRs.next_steps()
""", "prof")
print "done."
import pstats
p = pstats.Stats('prof')
p.sort_stats("time").print_stats(15)
SMCLogLikelihoods = parallelSIRs.getTotalLogLike()
results = {
"SMCLL": SMCLogLikelihoods,
"observations": model_obs,
"allLL": parallelSIRs.allLL
}
resultsfolder = os.path.join(THISPATH, "results")
import numpy as np
import matplotlib.pyplot as plt
import skimage as sk
import skimage.io as io
from skimage import data as da
import skimage
import cv2
import base64
import cProfile
#from line_profiler import LineProfiler as lp
crun = run = lambda cmd:cProfile.run(cmd,sort='time')
from math import tan
from math import log
import math
array,arange = np.array, np.arange
random = lambda shape,maxx:(np.random.random(
shape if (isinstance(shape,tuple) or isinstance(shape,list)
)else (shape,shape))*maxx).astype(int)
normalizing = lambda a:(a.astype(float)-a.min())/(a.max() - a.min())
stand = lambda num:max(min(255, int(round(num))),0)
roundInt = lambda x: int(round(x))
sym = {FOREX_XAUUSD, FOREX_XAGUSD}
# mybt = MyBackTest('20160920', '20160930', sym, mode=BACK_TEST_MODE_ONTICK, chunk_size=TIME_STEP_1DAY)
mybt = MyBackTest('20150820',
'20150920',
sym,
mode=BACK_TEST_MODE_ONBAR,
time_step=TIME_STEP_1MINUTE)
a = ExhibitionSubWindow(mybt)
mybt.start()
a.show()
ret = app.exec_()
finish = clock()
t = finish - start
print t
sys.exit(ret)
if __name__ == "__main__":
import cProfile
# 把分析结果保存到文件中,不过内容可读性差...需要调用pstats模块分析结果
cProfile.run("test()", "result")
import pstats
# 创建Stats对象
p = pstats.Stats("result")
# 按照在一个函数中累积的运行时间进行排序
# print_stats(3):只打印前3行函数的信息,参数还可为小数,表示前百分之几的函数信息
p.strip_dirs().sort_stats("cumulative").print_stats()
nargs='?',
help='specific benchmarks to run')
parser.add_argument('--profile',
dest='profile',
action='store_const',
const=True,
default=False,
help='run profiling against the report')
parser.add_argument('--loops',
'-l',
dest='loops',
default=100,
type=int,
help='Number of loops to run for each benchmark')
args = parser.parse_args()
benchmarks_to_run = list(benchmarks.values())
if args.benchmarks:
benchmarks_to_run = [
benchmark for benchmark in benchmarks_to_run
if benchmark.code in args.benchmarks
]
print('\nRunning {0} benchmarks...\n'.format(len(benchmarks_to_run)))
for benchmark in benchmarks_to_run:
if args.profile:
setup_data = benchmark.setup()
cProfile.run('benchmark.lifter_version(setup_data)')
else:
benchmark.report(loops=args.loops)
def cycle():
n = 32
# '+ 1' чтобы таблица печаталась полностью
for i in range(((127 - 32) // 10) + 1):
y = 0
while y < 10 and n <= 127:
print('num:', '%3d' % n, chr(n), end='|')
n += 1
y += 1
print()
# Мы будем тут только передавать номер числа
def recursion(num):
if num <= 127:
if num % 10 == 2 and num != 32:
print()
print('num:', '%3d' % num, chr(num), end='|')
num += 1
recursion(num)
#
# if __name__ == '__main__':
# # cycle()
# recursion()
cProfile.run('cycle()')
num = 32
cProfile.run('recursion(num)')
populate_data()
create_indexes()
if __name__ == "__main__":
global args
import argparse
import cProfile
parser = argparse.ArgumentParser()
parser.add_argument("-b",
"--branch",
default="HEAD",
help="git branch [HEAD]")
parser.add_argument("-d",
"--debug",
action="store_true",
help="debugging output")
parser.add_argument("-f",
"--full",
action="store_true",
help="git --full-tree")
parser.add_argument("-p",
"--profile",
action="store_true",
help="profile output")
args = parser.parse_args()
if args.profile:
cProfile.run('main_program()')
else:
main_program()
break
# give adv to player w one move to win
elif (board[x] == board[y] == -1
and board[z] == 0) or (board[x] == board[z] == -1 and board[y]
== 0) or (board[y] == board[z] == -1
and board[x] == 0):
adv = -1
elif (board[x] == board[y] == 1
and board[z] == 0) or (board[x] == board[z] == 1 and board[y]
== 0) or (board[y] == board[z] == 1
and board[x] == 0):
adv = 1
# else give to player who went first
else:
adv = 1
return win, adv
def main():
# create empty board
board = [0] * 10
# run game X goes first
run(board, 1)
if __name__ == "__main__":
cProfile.run('main()')
str(locations))
def test_python_read_files():
[open(fn, 'rb').read() for fn in filenames4]
if __name__ == "__main__":
runs = [
'datasets=test_full_read()',
# 'test_partial()',
# 'test_mem_read_full()',
# 'test_mem_read_small()',
'test_python_read_files()',
]
random.shuffle(runs)
for testrun in runs:
cProfile.run(testrun, tempfile)
p = pstats.Stats(tempfile)
print("---------------")
print(testrun)
print("---------------")
p.strip_dirs().sort_stats('time').print_stats(5)
print("Confirming file read worked -- check for data elements near end")
try:
image_sizes = [len(ds.PixelData) for ds in datasets] # NOQA
except Exception as e:
print("Failed to access dataset data for all files\nError:" + str(e))
else:
print("Reads checked ok.")
# Clear disk cache for next run?
if not on_windows:
# ATT_TREES = read_informs_tree()
pass
else:
DATA = read_adult(INPUT_DS_PATH)
ATT_TREES = read_adult_tree()
if FLAG == 'k':
get_result_k(ATT_TREES, DATA, TYPE_ALG)
elif FLAG == 'qi':
get_result_qi(ATT_TREES, DATA, TYPE_ALG)
elif FLAG == 'data':
get_result_dataset(ATT_TREES, DATA, TYPE_ALG)
elif FLAG == 'n':
get_result_n(ATT_TREES, DATA, TYPE_ALG)
elif FLAG == '':
if __DEBUG:
cProfile.run('get_result_one(ATT_TREES, DATA, TYPE_ALG)')
else:
get_result_one(ATT_TREES, DATA, TYPE_ALG)
else:
try:
INPUT_K = int(FLAG)
if LOG_TO_FILE == '1':
sys.stdout = open("log/oka_results_k_" + str(INPUT_K) + ".log",
"w")
get_result_one(ATT_TREES, DATA, TYPE_ALG, INPUT_K, OUTPUT_DS_PATH)
except ValueError:
traceback.print_exc()
print(
"Usage: python anonymizer [a | i] [knn | kmember | oka] [k | qi | data| n]"
)
print("a: adult dataset, i: INFORMS ataset")
import cProfile
cProfile.run('sprint_4_task_5.main()')
# Copyright (c) 2008 Doug Hellmann All rights reserved.
#
"""
"""
__version__ = "$Id$"
#end_pymotw_header
import cProfile as profile
import pstats
from profile_fibonacci_memoized import fib, fib_seq
# Create 5 set of stats
filenames = []
for i in range(5):
filename = 'profile_stats_%d.stats' % i
profile.run('print %d, fib_seq(20)' % i, filename)
# Read all 5 stats files into a single object
stats = pstats.Stats('profile_stats_0.stats')
for i in range(1, 5):
stats.add('profile_stats_%d.stats' % i)
# Clean up filenames for the report
stats.strip_dirs()
# Sort the statistics by the cumulative time spent in the function
stats.sort_stats('cumulative')
stats.print_stats()
kwargs['X'] = X
kwargs['regparam'] = '1'
kwargs['kernel'] = 'GaussianKernel'
kwargs['gamma'] = 2.**(-20.)
kwargs['bias'] = 1
kwargs['number_of_clusters'] = classcount
kwargs['regparam'] = 2.**(-30.)
#kwargs['learner'] = 'MMC'
kwargs['basis_vectors'] = X[bvecs]
tcb = TestCallback()
kwargs['callback'] = tcb
#mselector = None
mmc = MMC(**kwargs)
#mmc = SteepestDescentMMC.createLearner(**kwargs)
#trainresults = core.trainModel(**kwargs)
#model = trainresults['model']
#writer.write_ints('./examples/predictions/clusters.txt', trainresults['predicted_clusters_for_training_data'])
class Test(unittest.TestCase):
def test_mmc(self):
dotesting()
if __name__ == "__main__":
import cProfile
#dotesting()
cProfile.run('dotesting(1500)')
self.mnemosyne.review_controller().show_new_question()
for i in range(200):
self.mnemosyne.review_controller().show_answer()
self.mnemosyne.review_controller().grade_answer(0)
Client.__init__(self, "client_machine_id", self.mnemosyne.database(),
self.mnemosyne.main_widget())
def do_sync(self):
#self.BUFFER_SIZE = 10*8192
#self.behind_proxy = True
self.sync("localhost", 8186, "user", "pass")
self.mnemosyne.database().save()
if __name__ == '__main__':
client = MyClient()
def sync():
client.do_sync()
tests = ["sync()"]
for test in tests:
cProfile.run(test, "mnemosyne_profile." + test.replace("()", ""))
print
print "*** ", test, " ***"
print
p = pstats.Stats('mnemosyne_profile.' + test.replace("()", ""))
p.strip_dirs().sort_stats('cumulative').print_stats(number_of_calls)
E = 57000 * (4500)**0.5 * 144 # psf
t = 1 # ft
width = 10 # ft
height = 10 # ft
nu = 0.17
meshsize = 0.5 # ft
load = 250 # psf
myWall = RectWall(width, height, t, E, nu, meshsize, 'Fixed', 'Fixed', 'Fixed',
'Fixed')
myWall.add_load(0, height, load, load)
# Analyze the wall
import cProfile
cProfile.run('myWall.analyze()', sort='cumtime')
# Render the wall. The default load combination 'Combo 1' will be displayed since we're not specifying otherwise.
# The plates will be set to show the 'Mx' results
from pynite import Visualization
Visualization.RenderModel(myWall.fem,
text_height=meshsize / 6,
render_loads=True,
color_map='Mx')
# Plot the displacement contour
myWall.plot_disp()
# Plot the shear force contours
myWall.plot_forces('Qx')
import cProfile
from setup_libraries import load_asm_math
def performance_test(n):
result = 0
for i in range(n):
result += float(i) * 2
return result
if __name__ == '__main__':
asm_math = load_asm_math()
n = 2500000
python_result = performance_test(n)
cpp_result = asm_math.performance_test(n)
# results printing
print("performance_test({}) = {:.4f}".format(n, python_result))
print("asm_math.performance_test({}) = {:.4f}".format(n, cpp_result))
# profiling
cProfile.run("performance_test(n)")
cProfile.run("asm_math.performance_test(n)")
def main():
# pass
cProfile.run('SearchingAndSortingG.main()')
import cProfile
import palingrams_optimized
cProfile.run('palingrams_optimized.find_palingrams()')
timer = Timer()
with timer:
for i in range(1000000):
func(*args, **kwargs)
return timer.duration_in_seconds()
if __name__ == '__main__':
# timeit.timeit(stmt, setup, timer, number, globals)
print(timeit.timeit(f1))
print(timeit.timeit('f2(42)', 'from measure_time import f2'))
print(timeit.timeit('f2(42)', globals=globals()))
print(timeit.timeit(wrapper(f2, 42)))
print(timeit.timeit(partial(f2, 42)))
print(timeit.timeit(partial(f2, 42), number=2000000))
print(measure_time(f2, 42))
with measure_time_context():
for i in range(1000000):
f2(42)
print(self_timer_context(f2, 42))
cProfile.run('f2(42)')
cProfile.run('[f2(42) for i in range(1000000)]')
cProfile.run('[f2(42) for i in range(1000000)]', sort='tottime')
profile.run('[f2(42) for i in range(1000000)]', sort='tottime')
argv = FLAGS(sys.argv)
from monitor import memory, human
start_mem = memory()
if FLAGS.fakemem:
s = Model(FLAGS.fakemem)
t = Model(FLAGS.fakemem)
print >> logs, "memory usage after read in fake: ", human(
memory(start_mem))
if FLAGS.weights is None:
if not FLAGS.sim:
print >> logs, "Error: must specify a weights file" + str(FLAGS)
sys.exit(1)
else:
model = None # can simulate w/o a model
else:
model = Model(FLAGS.weights) #FLAGS.model, FLAGS.weights)
if FLAGS.profile:
import cProfile as profile
profile.run('main()', '/tmp/a')
import pstats
p = pstats.Stats('/tmp/a')
p.sort_stats('cumulative', 'time').print_stats(60)
else:
main()
"sqlmap_profile.png")
if os.path.exists(profileOutputFile):
os.remove(profileOutputFile)
if os.path.exists(dotOutputFile):
os.remove(dotOutputFile)
if os.path.exists(imageOutputFile):
os.remove(imageOutputFile)
infoMsg = "profiling the execution into file %s" % profileOutputFile
logger.info(infoMsg)
# Start sqlmap main function and generate a raw profile file
cProfile.run("start()", profileOutputFile)
infoMsg = "converting profile data into a dot file '%s'" % dotOutputFile
logger.info(infoMsg)
# Create dot file by using extra/gprof2dot/gprof2dot.py
# http://code.google.com/p/jrfonseca/wiki/Gprof2Dot
dotFilePointer = codecs.open(dotOutputFile, 'wt', UNICODE_ENCODING)
parser = gprof2dot.PstatsParser(profileOutputFile)
profile = parser.parse()
profile.prune(0.5 / 100.0, 0.1 / 100.0)
dot = gprof2dot.DotWriter(dotFilePointer)
dot.graph(profile, gprof2dot.TEMPERATURE_COLORMAP)
dotFilePointer.close()
infoMsg = "converting dot file into a graph image '%s'" % imageOutputFile
# pygame.draw.lines(screen, THECOLORS["black"], False, [p1,p2])
for i in dic:
line = dic[i]
body = line.body
# print(list(line.a.rotated(body.angle))+["fhfjffjfjh"])
pv1 = body.position + line.a.rotated(body.angle)
pv2 = body.position + line.b.rotated(body.angle)
p1 = pv1.x, flipy(pv1.y)
p2 = pv2.x, flipy(pv2.y)
pygame.draw.lines(screen, THECOLORS["lightgray"], False, [p1, p2])
### Flip screen
pygame.display.flip()
# clock.tick(50)
pygame.display.set_caption("fps: " + str(clock.get_fps()))
# time.sleep(0.1)
if __name__ == '__main__':
doprof = 0
if not doprof:
main()
else:
import cProfile, pstats
prof = cProfile.run("main()", "profile.prof")
stats = pstats.Stats("profile.prof")
stats.strip_dirs()
stats.sort_stats('cumulative', 'time', 'calls')
stats.print_stats(30)
# coding=utf-8
#
# ncalls表示函数调用的次数
# tottime表示指定函数消耗的时间
# percall表示函数每次调用的平均耗时,tottime/ncalls
# cumtime表示该函数及其所有子函数的调用耗时,就是从函数开始调用到返回的时间
# 第二个percall为cumtime/primitive calls的值
# filename:lineno(function)表示每个函数所在的位置
# console: python -m cProfile caption_5_io.py
import cProfile
def func():
print("")
cProfile.run('func()')
142, 131, 51, 229, 9, 607, 326, 522, 687, 792, 845, 665, 358, 91, 720,
155, 565, 99, 26, 650, 539, 780, 589, 950, 935, 372, 227, 424, 750,
833, 554, 841, 552, 60, 757, 430, 916, 140, 790, 426, 776, 96, 199,
923, 806, 949, 755, 711, 659, 911, 611, 310, 774, 265, 880, 690, 706,
761, 286, 255, 756, 204, 444, 478, 601, 529, 669, 241, 784, 566, 528,
208, 270, 511, 236, 271, 378, 58, 453, 467, 233, 250, 567, 296, 932,
989, 367, 626, 35, 162, 887, 572, 603, 564, 797, 280, 406, 970, 689,
408, 431, 638, 489, 85, 50, 357, 803, 47, 555, 793, 422, 763, 110, 869,
861, 253, 320, 538, 347, 405, 769, 64, 875, 630, 537, 328, 553, 166,
948, 303, 160, 800, 507, 920, 922, 90, 693, 636, 17, 455, 183, 210,
856, 762, 656, 174, 873, 579, 176, 688, 640, 1, 938, 902, 341, 740,
581, 427, 111, 972, 443, 22, 791, 304, 574, 575, 725, 477, 700, 817,
381, 479, 248, 121, 411, 547, 182, 871, 599, 203, 13, 224, 541, 724,
178, 775, 388, 4, 251, 321, 52, 88, 100, 279, 614, 839, 84, 151, 735,
40, 752, 773, 376, 77, 476, 708, 396, 988, 961, 24, 231, 445, 609, 952,
965, 986, 414, 451, 881, 42, 257, 32, 334, 130, 596, 527, 94, 333, 317,
244, 960, 710, 852, 862, 421, 81, 37, 452, 274, 187, 268, 520, 491,
778, 18, 743, 620, 145, 72, 370, 118, 748, 633, 997, 436, 143, 573,
495, 180, 34
])
print largestDivisibleSubset([
1, 2, 4, 8, 16, 32, 64, 128, 256, 512, 1024, 2048, 4096, 8192, 16384,
32768, 65536, 131072, 262144, 524288, 1048576, 2097152, 4194304,
8388608, 16777216, 33554432, 67108864, 134217728, 268435456, 536870912,
1073741824
])
import cProfile
cProfile.run('testlargestDivisibleSubset()')
