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statprof.py
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Gregory Szorc
statprof: vendor statprof.py...
r30253 #!/usr/bin/env python
## statprof.py
## Copyright (C) 2012 Bryan O'Sullivan <bos@serpentine.com>
## Copyright (C) 2011 Alex Fraser <alex at phatcore dot com>
## Copyright (C) 2004,2005 Andy Wingo <wingo at pobox dot com>
## Copyright (C) 2001 Rob Browning <rlb at defaultvalue dot org>
## This library is free software; you can redistribute it and/or
## modify it under the terms of the GNU Lesser General Public
## License as published by the Free Software Foundation; either
## version 2.1 of the License, or (at your option) any later version.
##
## This library is distributed in the hope that it will be useful,
## but WITHOUT ANY WARRANTY; without even the implied warranty of
## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
## Lesser General Public License for more details.
##
## You should have received a copy of the GNU Lesser General Public
## License along with this program; if not, contact:
##
## Free Software Foundation Voice: +1-617-542-5942
## 59 Temple Place - Suite 330 Fax: +1-617-542-2652
## Boston, MA 02111-1307, USA gnu@gnu.org
"""
statprof is intended to be a fairly simple statistical profiler for
python. It was ported directly from a statistical profiler for guile,
also named statprof, available from guile-lib [0].
[0] http://wingolog.org/software/guile-lib/statprof/
To start profiling, call statprof.start():
>>> start()
Then run whatever it is that you want to profile, for example:
>>> import test.pystone; test.pystone.pystones()
Then stop the profiling and print out the results:
>>> stop()
>>> display()
% cumulative self
time seconds seconds name
26.72 1.40 0.37 pystone.py:79:Proc0
13.79 0.56 0.19 pystone.py:133:Proc1
13.79 0.19 0.19 pystone.py:208:Proc8
10.34 0.16 0.14 pystone.py:229:Func2
6.90 0.10 0.10 pystone.py:45:__init__
4.31 0.16 0.06 pystone.py:53:copy
...
All of the numerical data is statistically approximate. In the
following column descriptions, and in all of statprof, "time" refers
to execution time (both user and system), not wall clock time.
% time
The percent of the time spent inside the procedure itself (not
counting children).
cumulative seconds
The total number of seconds spent in the procedure, including
children.
self seconds
The total number of seconds spent in the procedure itself (not
counting children).
name
The name of the procedure.
By default statprof keeps the data collected from previous runs. If you
want to clear the collected data, call reset():
>>> reset()
reset() can also be used to change the sampling frequency from the
default of 1000 Hz. For example, to tell statprof to sample 50 times a
second:
>>> reset(50)
This means that statprof will sample the call stack after every 1/50 of
a second of user + system time spent running on behalf of the python
process. When your process is idle (for example, blocking in a read(),
as is the case at the listener), the clock does not advance. For this
reason statprof is not currently not suitable for profiling io-bound
operations.
The profiler uses the hash of the code object itself to identify the
procedures, so it won't confuse different procedures with the same name.
They will show up as two different rows in the output.
Right now the profiler is quite simplistic. I cannot provide
call-graphs or other higher level information. What you see in the
table is pretty much all there is. Patches are welcome :-)
Threading
---------
Because signals only get delivered to the main thread in Python,
statprof only profiles the main thread. However because the time
reporting function uses per-process timers, the results can be
significantly off if other threads' work patterns are not similar to the
main thread's work patterns.
"""
# no-check-code
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r30257 from __future__ import absolute_import, division, print_function
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r30253
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r30256 import collections
import contextlib
import getopt
import inspect
import json
import os
import signal
import sys
import tempfile
import threading
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r30253 import time
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r30256
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r30578 from . import (
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r30637 encoding,
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r30578 pycompat,
)
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r30256 defaultdict = collections.defaultdict
contextmanager = contextlib.contextmanager
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r30253
__all__ = ['start', 'stop', 'reset', 'display', 'profile']
skips = set(["util.py:check", "extensions.py:closure",
"color.py:colorcmd", "dispatch.py:checkargs",
"dispatch.py:<lambda>", "dispatch.py:_runcatch",
"dispatch.py:_dispatch", "dispatch.py:_runcommand",
"pager.py:pagecmd", "dispatch.py:run",
"dispatch.py:dispatch", "dispatch.py:runcommand",
"hg.py:<module>", "evolve.py:warnobserrors",
])
###########################################################################
## Utils
def clock():
times = os.times()
return times[0] + times[1]
###########################################################################
## Collection data structures
class ProfileState(object):
def __init__(self, frequency=None):
self.reset(frequency)
def reset(self, frequency=None):
# total so far
self.accumulated_time = 0.0
# start_time when timer is active
self.last_start_time = None
# a float
if frequency:
self.sample_interval = 1.0 / frequency
elif not hasattr(self, 'sample_interval'):
# default to 1000 Hz
self.sample_interval = 1.0 / 1000.0
else:
# leave the frequency as it was
pass
self.remaining_prof_time = None
# for user start/stop nesting
self.profile_level = 0
self.samples = []
def accumulate_time(self, stop_time):
self.accumulated_time += stop_time - self.last_start_time
def seconds_per_sample(self):
return self.accumulated_time / len(self.samples)
state = ProfileState()
class CodeSite(object):
cache = {}
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r30568 __slots__ = (u'path', u'lineno', u'function', u'source')
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r30253
def __init__(self, path, lineno, function):
self.path = path
self.lineno = lineno
self.function = function
self.source = None
def __eq__(self, other):
try:
return (self.lineno == other.lineno and
self.path == other.path)
except:
return False
def __hash__(self):
return hash((self.lineno, self.path))
@classmethod
def get(cls, path, lineno, function):
k = (path, lineno)
try:
return cls.cache[k]
except KeyError:
v = cls(path, lineno, function)
cls.cache[k] = v
return v
def getsource(self, length):
if self.source is None:
lineno = self.lineno - 1
fp = None
try:
fp = open(self.path)
for i, line in enumerate(fp):
if i == lineno:
self.source = line.strip()
break
except:
pass
finally:
if fp:
fp.close()
if self.source is None:
self.source = ''
source = self.source
if len(source) > length:
source = source[:(length - 3)] + "..."
return source
def filename(self):
return os.path.basename(self.path)
class Sample(object):
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r30568 __slots__ = (u'stack', u'time')
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r30253
def __init__(self, stack, time):
self.stack = stack
self.time = time
@classmethod
def from_frame(cls, frame, time):
stack = []
while frame:
stack.append(CodeSite.get(frame.f_code.co_filename, frame.f_lineno,
frame.f_code.co_name))
frame = frame.f_back
return Sample(stack, time)
###########################################################################
## SIGPROF handler
def profile_signal_handler(signum, frame):
if state.profile_level > 0:
now = clock()
state.accumulate_time(now)
state.samples.append(Sample.from_frame(frame, state.accumulated_time))
signal.setitimer(signal.ITIMER_PROF,
state.sample_interval, 0.0)
state.last_start_time = now
stopthread = threading.Event()
def samplerthread(tid):
while not stopthread.is_set():
now = clock()
state.accumulate_time(now)
frame = sys._current_frames()[tid]
state.samples.append(Sample.from_frame(frame, state.accumulated_time))
state.last_start_time = now
time.sleep(state.sample_interval)
stopthread.clear()
###########################################################################
## Profiling API
def is_active():
return state.profile_level > 0
lastmechanism = None
def start(mechanism='thread'):
'''Install the profiling signal handler, and start profiling.'''
state.profile_level += 1
if state.profile_level == 1:
state.last_start_time = clock()
rpt = state.remaining_prof_time
state.remaining_prof_time = None
global lastmechanism
lastmechanism = mechanism
if mechanism == 'signal':
signal.signal(signal.SIGPROF, profile_signal_handler)
signal.setitimer(signal.ITIMER_PROF,
rpt or state.sample_interval, 0.0)
elif mechanism == 'thread':
frame = inspect.currentframe()
tid = [k for k, f in sys._current_frames().items() if f == frame][0]
state.thread = threading.Thread(target=samplerthread,
args=(tid,), name="samplerthread")
state.thread.start()
def stop():
'''Stop profiling, and uninstall the profiling signal handler.'''
state.profile_level -= 1
if state.profile_level == 0:
if lastmechanism == 'signal':
rpt = signal.setitimer(signal.ITIMER_PROF, 0.0, 0.0)
signal.signal(signal.SIGPROF, signal.SIG_IGN)
state.remaining_prof_time = rpt[0]
elif lastmechanism == 'thread':
stopthread.set()
state.thread.join()
state.accumulate_time(clock())
state.last_start_time = None
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r30637 statprofpath = encoding.environ.get('STATPROF_DEST')
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r30255 if statprofpath:
save_data(statprofpath)
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r30253
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r30299 return state
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r30255 def save_data(path):
with open(path, 'w+') as file:
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r30253 file.write(str(state.accumulated_time) + '\n')
for sample in state.samples:
time = str(sample.time)
stack = sample.stack
sites = ['\1'.join([s.path, str(s.lineno), s.function])
for s in stack]
file.write(time + '\0' + '\0'.join(sites) + '\n')
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r30255 def load_data(path):
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r30253 lines = open(path, 'r').read().splitlines()
state.accumulated_time = float(lines[0])
state.samples = []
for line in lines[1:]:
parts = line.split('\0')
time = float(parts[0])
rawsites = parts[1:]
sites = []
for rawsite in rawsites:
siteparts = rawsite.split('\1')
sites.append(CodeSite.get(siteparts[0], int(siteparts[1]),
siteparts[2]))
state.samples.append(Sample(sites, time))
def reset(frequency=None):
'''Clear out the state of the profiler. Do not call while the
profiler is running.
The optional frequency argument specifies the number of samples to
collect per second.'''
assert state.profile_level == 0, "Can't reset() while statprof is running"
CodeSite.cache.clear()
state.reset(frequency)
@contextmanager
def profile():
start()
try:
yield
finally:
stop()
display()
###########################################################################
## Reporting API
class SiteStats(object):
def __init__(self, site):
self.site = site
self.selfcount = 0
self.totalcount = 0
def addself(self):
self.selfcount += 1
def addtotal(self):
self.totalcount += 1
def selfpercent(self):
return self.selfcount / len(state.samples) * 100
def totalpercent(self):
return self.totalcount / len(state.samples) * 100
def selfseconds(self):
return self.selfcount * state.seconds_per_sample()
def totalseconds(self):
return self.totalcount * state.seconds_per_sample()
@classmethod
def buildstats(cls, samples):
stats = {}
for sample in samples:
for i, site in enumerate(sample.stack):
sitestat = stats.get(site)
if not sitestat:
sitestat = SiteStats(site)
stats[site] = sitestat
sitestat.addtotal()
if i == 0:
sitestat.addself()
return [s for s in stats.itervalues()]
class DisplayFormats:
ByLine = 0
ByMethod = 1
AboutMethod = 2
Hotpath = 3
FlameGraph = 4
Json = 5
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r30258 def display(fp=None, format=3, data=None, **kwargs):
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r30253 '''Print statistics, either to stdout or the given file object.'''
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r30258 data = data or state
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r30253
if fp is None:
import sys
fp = sys.stdout
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r30258 if len(data.samples) == 0:
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r30257 print('No samples recorded.', file=fp)
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r30253 return
if format == DisplayFormats.ByLine:
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r30258 display_by_line(data, fp)
Gregory Szorc
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r30253 elif format == DisplayFormats.ByMethod:
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r30258 display_by_method(data, fp)
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r30253 elif format == DisplayFormats.AboutMethod:
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r30258 display_about_method(data, fp, **kwargs)
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r30253 elif format == DisplayFormats.Hotpath:
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r30258 display_hotpath(data, fp, **kwargs)
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r30253 elif format == DisplayFormats.FlameGraph:
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r30258 write_to_flame(data, fp, **kwargs)
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r30253 elif format == DisplayFormats.Json:
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r30258 write_to_json(data, fp)
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r30253 else:
raise Exception("Invalid display format")
if format != DisplayFormats.Json:
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r30257 print('---', file=fp)
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r30258 print('Sample count: %d' % len(data.samples), file=fp)
print('Total time: %f seconds' % data.accumulated_time, file=fp)
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r30253
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r30258 def display_by_line(data, fp):
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r30253 '''Print the profiler data with each sample line represented
as one row in a table. Sorted by self-time per line.'''
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r30258 stats = SiteStats.buildstats(data.samples)
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r30253 stats.sort(reverse=True, key=lambda x: x.selfseconds())
Gregory Szorc
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r30257 print('%5.5s %10.10s %7.7s %-8.8s' %
('% ', 'cumulative', 'self', ''), file=fp)
print('%5.5s %9.9s %8.8s %-8.8s' %
("time", "seconds", "seconds", "name"), file=fp)
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r30253
for stat in stats:
site = stat.site
sitelabel = '%s:%d:%s' % (site.filename(), site.lineno, site.function)
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r30257 print('%6.2f %9.2f %9.2f %s' % (stat.selfpercent(),
stat.totalseconds(),
stat.selfseconds(),
sitelabel),
file=fp)
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r30253
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r30258 def display_by_method(data, fp):
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r30253 '''Print the profiler data with each sample function represented
as one row in a table. Important lines within that function are
output as nested rows. Sorted by self-time per line.'''
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r30257 print('%5.5s %10.10s %7.7s %-8.8s' %
('% ', 'cumulative', 'self', ''), file=fp)
print('%5.5s %9.9s %8.8s %-8.8s' %
("time", "seconds", "seconds", "name"), file=fp)
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r30253
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r30258 stats = SiteStats.buildstats(data.samples)
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r30253
grouped = defaultdict(list)
for stat in stats:
grouped[stat.site.filename() + ":" + stat.site.function].append(stat)
# compute sums for each function
functiondata = []
for fname, sitestats in grouped.iteritems():
total_cum_sec = 0
total_self_sec = 0
total_percent = 0
for stat in sitestats:
total_cum_sec += stat.totalseconds()
total_self_sec += stat.selfseconds()
total_percent += stat.selfpercent()
functiondata.append((fname,
total_cum_sec,
total_self_sec,
total_percent,
sitestats))
# sort by total self sec
functiondata.sort(reverse=True, key=lambda x: x[2])
for function in functiondata:
if function[3] < 0.05:
continue
Gregory Szorc
statprof: use print function
r30257 print('%6.2f %9.2f %9.2f %s' % (function[3], # total percent
function[1], # total cum sec
function[2], # total self sec
function[0]), # file:function
file=fp)
Gregory Szorc
statprof: vendor statprof.py...
r30253 function[4].sort(reverse=True, key=lambda i: i.selfseconds())
for stat in function[4]:
# only show line numbers for significant locations (>1% time spent)
if stat.selfpercent() > 1:
source = stat.site.getsource(25)
stattuple = (stat.selfpercent(), stat.selfseconds(),
stat.site.lineno, source)
Gregory Szorc
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r30257 print('%33.0f%% %6.2f line %s: %s' % (stattuple), file=fp)
Gregory Szorc
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r30253
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r30258 def display_about_method(data, fp, function=None, **kwargs):
Gregory Szorc
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r30253 if function is None:
raise Exception("Invalid function")
filename = None
if ':' in function:
filename, function = function.split(':')
relevant_samples = 0
parents = {}
children = {}
Gregory Szorc
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r30258 for sample in data.samples:
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r30253 for i, site in enumerate(sample.stack):
if site.function == function and (not filename
or site.filename() == filename):
relevant_samples += 1
if i != len(sample.stack) - 1:
parent = sample.stack[i + 1]
if parent in parents:
parents[parent] = parents[parent] + 1
else:
parents[parent] = 1
if site in children:
children[site] = children[site] + 1
else:
children[site] = 1
parents = [(parent, count) for parent, count in parents.iteritems()]
parents.sort(reverse=True, key=lambda x: x[1])
for parent, count in parents:
Gregory Szorc
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r30257 print('%6.2f%% %s:%s line %s: %s' %
Gregory Szorc
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r30253 (count / relevant_samples * 100, parent.filename(),
Gregory Szorc
statprof: use print function
r30257 parent.function, parent.lineno, parent.getsource(50)), file=fp)
Gregory Szorc
statprof: vendor statprof.py...
r30253
Gregory Szorc
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r30258 stats = SiteStats.buildstats(data.samples)
Gregory Szorc
statprof: vendor statprof.py...
r30253 stats = [s for s in stats
if s.site.function == function and
(not filename or s.site.filename() == filename)]
total_cum_sec = 0
total_self_sec = 0
total_self_percent = 0
total_cum_percent = 0
for stat in stats:
total_cum_sec += stat.totalseconds()
total_self_sec += stat.selfseconds()
total_self_percent += stat.selfpercent()
total_cum_percent += stat.totalpercent()
Gregory Szorc
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r30257 print(
Gregory Szorc
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r30253 '\n %s:%s Total: %0.2fs (%0.2f%%) Self: %0.2fs (%0.2f%%)\n' %
(
filename or '___',
function,
total_cum_sec,
total_cum_percent,
total_self_sec,
total_self_percent
Gregory Szorc
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r30257 ), file=fp)
Gregory Szorc
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r30253
children = [(child, count) for child, count in children.iteritems()]
children.sort(reverse=True, key=lambda x: x[1])
for child, count in children:
Gregory Szorc
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r30257 print(' %6.2f%% line %s: %s' %
(count / relevant_samples * 100, child.lineno,
child.getsource(50)), file=fp)
Gregory Szorc
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r30253
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r30258 def display_hotpath(data, fp, limit=0.05, **kwargs):
Gregory Szorc
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r30253 class HotNode(object):
def __init__(self, site):
self.site = site
self.count = 0
self.children = {}
def add(self, stack, time):
self.count += time
site = stack[0]
child = self.children.get(site)
if not child:
child = HotNode(site)
self.children[site] = child
if len(stack) > 1:
i = 1
# Skip boiler plate parts of the stack
while i < len(stack) and '%s:%s' % (stack[i].filename(), stack[i].function) in skips:
i += 1
if i < len(stack):
child.add(stack[i:], time)
root = HotNode(None)
Gregory Szorc
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r30258 lasttime = data.samples[0].time
for sample in data.samples:
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r30253 root.add(sample.stack[::-1], sample.time - lasttime)
lasttime = sample.time
def _write(node, depth, multiple_siblings):
site = node.site
visiblechildren = [c for c in node.children.itervalues()
if c.count >= (limit * root.count)]
if site:
indent = depth * 2 - 1
filename = ''
function = ''
if len(node.children) > 0:
childsite = list(node.children.itervalues())[0].site
filename = (childsite.filename() + ':').ljust(15)
function = childsite.function
# lots of string formatting
listpattern = ''.ljust(indent) +\
('\\' if multiple_siblings else '|') +\
' %4.1f%% %s %s'
liststring = listpattern % (node.count / root.count * 100,
filename, function)
codepattern = '%' + str(55 - len(liststring)) + 's %s: %s'
codestring = codepattern % ('line', site.lineno, site.getsource(30))
finalstring = liststring + codestring
childrensamples = sum([c.count for c in node.children.itervalues()])
# Make frames that performed more than 10% of the operation red
if node.count - childrensamples > (0.1 * root.count):
finalstring = '\033[91m' + finalstring + '\033[0m'
# Make frames that didn't actually perform work dark grey
elif node.count - childrensamples == 0:
finalstring = '\033[90m' + finalstring + '\033[0m'
Gregory Szorc
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r30257 print(finalstring, file=fp)
Gregory Szorc
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r30253
newdepth = depth
if len(visiblechildren) > 1 or multiple_siblings:
newdepth += 1
visiblechildren.sort(reverse=True, key=lambda x: x.count)
for child in visiblechildren:
_write(child, newdepth, len(visiblechildren) > 1)
if root.count > 0:
_write(root, 0, False)
Gregory Szorc
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r30258 def write_to_flame(data, fp, scriptpath=None, outputfile=None, **kwargs):
Gregory Szorc
statprof: vendor statprof.py...
r30253 if scriptpath is None:
Pulkit Goyal
py3: replace os.environ with encoding.environ (part 4 of 5)
r30637 scriptpath = encoding.environ['HOME'] + '/flamegraph.pl'
Gregory Szorc
statprof: vendor statprof.py...
r30253 if not os.path.exists(scriptpath):
Gregory Szorc
statprof: use print function
r30257 print("error: missing %s" % scriptpath, file=fp)
print("get it here: https://github.com/brendangregg/FlameGraph",
file=fp)
Gregory Szorc
statprof: vendor statprof.py...
r30253 return
fd, path = tempfile.mkstemp()
file = open(path, "w+")
lines = {}
Gregory Szorc
statprof: pass data structure to display functions...
r30258 for sample in data.samples:
Gregory Szorc
statprof: vendor statprof.py...
r30253 sites = [s.function for s in sample.stack]
sites.reverse()
line = ';'.join(sites)
if line in lines:
lines[line] = lines[line] + 1
else:
lines[line] = 1
for line, count in lines.iteritems():
file.write("%s %s\n" % (line, count))
file.close()
if outputfile is None:
outputfile = '~/flamegraph.svg'
os.system("perl ~/flamegraph.pl %s > %s" % (path, outputfile))
Gregory Szorc
statprof: use print function
r30257 print("Written to %s" % outputfile, file=fp)
Gregory Szorc
statprof: vendor statprof.py...
r30253
Gregory Szorc
statprof: pass data structure to display functions...
r30258 def write_to_json(data, fp):
Gregory Szorc
statprof: vendor statprof.py...
r30253 samples = []
Gregory Szorc
statprof: pass data structure to display functions...
r30258 for sample in data.samples:
Gregory Szorc
statprof: vendor statprof.py...
r30253 stack = []
for frame in sample.stack:
stack.append((frame.path, frame.lineno, frame.function))
samples.append((sample.time, stack))
Gregory Szorc
statprof: use print function
r30257 print(json.dumps(samples), file=fp)
Gregory Szorc
statprof: vendor statprof.py...
r30253
def printusage():
Gregory Szorc
statprof: use print function
r30257 print("""
Gregory Szorc
statprof: vendor statprof.py...
r30253 The statprof command line allows you to inspect the last profile's results in
the following forms:
usage:
hotpath [-l --limit percent]
Shows a graph of calls with the percent of time each takes.
Red calls take over 10%% of the total time themselves.
lines
Shows the actual sampled lines.
functions
Shows the samples grouped by function.
function [filename:]functionname
Shows the callers and callees of a particular function.
flame [-s --script-path] [-o --output-file path]
Writes out a flamegraph to output-file (defaults to ~/flamegraph.svg)
Requires that ~/flamegraph.pl exist.
Gregory Szorc
statprof: use print function
r30257 (Specify alternate script path with --script-path.)""")
Gregory Szorc
statprof: vendor statprof.py...
r30253
def main(argv=None):
if argv is None:
argv = sys.argv
if len(argv) == 1:
printusage()
return 0
displayargs = {}
optstart = 2
displayargs['function'] = None
if argv[1] == 'hotpath':
displayargs['format'] = DisplayFormats.Hotpath
elif argv[1] == 'lines':
displayargs['format'] = DisplayFormats.ByLine
elif argv[1] == 'functions':
displayargs['format'] = DisplayFormats.ByMethod
elif argv[1] == 'function':
displayargs['format'] = DisplayFormats.AboutMethod
displayargs['function'] = argv[2]
optstart = 3
elif argv[1] == 'flame':
displayargs['format'] = DisplayFormats.FlameGraph
else:
printusage()
return 0
# process options
try:
Pulkit Goyal
py3: make a bytes version of getopt.getopt()...
r30578 opts, args = pycompat.getoptb(sys.argv[optstart:], "hl:f:o:p:",
Gregory Szorc
statprof: vendor statprof.py...
r30253 ["help", "limit=", "file=", "output-file=", "script-path="])
except getopt.error as msg:
Gregory Szorc
statprof: use print function
r30257 print(msg)
Gregory Szorc
statprof: vendor statprof.py...
r30253 printusage()
return 2
displayargs['limit'] = 0.05
path = None
for o, value in opts:
if o in ("-l", "--limit"):
displayargs['limit'] = float(value)
elif o in ("-f", "--file"):
path = value
elif o in ("-o", "--output-file"):
displayargs['outputfile'] = value
elif o in ("-p", "--script-path"):
displayargs['scriptpath'] = value
elif o in ("-h", "help"):
printusage()
return 0
else:
assert False, "unhandled option %s" % o
Gregory Szorc
statprof: require input file...
r30845 if not path:
print('must specify --file to load')
return 1
Gregory Szorc
statprof: vendor statprof.py...
r30253 load_data(path=path)
display(**displayargs)
return 0
if __name__ == "__main__":
sys.exit(main())