notebook/IPython/testing/iptestcontroller.py
2013-09-19 15:21:13 -07:00

363 lines
12 KiB
Python

# -*- coding: utf-8 -*-
"""IPython Test Process Controller
This module runs one or more subprocesses which will actually run the IPython
test suite.
"""
#-----------------------------------------------------------------------------
# Copyright (C) 2009-2011 The IPython Development Team
#
# Distributed under the terms of the BSD License. The full license is in
# the file COPYING, distributed as part of this software.
#-----------------------------------------------------------------------------
#-----------------------------------------------------------------------------
# Imports
#-----------------------------------------------------------------------------
from __future__ import print_function
import argparse
import multiprocessing.pool
import os
import shutil
import signal
import sys
import subprocess
import time
from .iptest import have, test_group_names, test_sections
from IPython.utils.sysinfo import sys_info
from IPython.utils.tempdir import TemporaryDirectory
class IPTestController(object):
"""Run iptest in a subprocess
"""
#: str, IPython test suite to be executed.
section = None
#: list, command line arguments to be executed
cmd = None
#: str, Python command to execute in subprocess
pycmd = None
#: dict, extra environment variables to set for the subprocess
env = None
#: list, TemporaryDirectory instances to clear up when the process finishes
dirs = None
#: subprocess.Popen instance
process = None
buffer_output = False
def __init__(self, section):
"""Create new test runner."""
self.section = section
# pycmd is put into cmd[2] in IPTestController.launch()
self.cmd = [sys.executable, '-c', None, section]
self.pycmd = "from IPython.testing.iptest import run_iptest; run_iptest()"
self.env = {}
self.dirs = []
ipydir = TemporaryDirectory()
self.dirs.append(ipydir)
self.env['IPYTHONDIR'] = ipydir.name
self.workingdir = workingdir = TemporaryDirectory()
self.dirs.append(workingdir)
self.env['IPTEST_WORKING_DIR'] = workingdir.name
# This means we won't get odd effects from our own matplotlib config
self.env['MPLCONFIGDIR'] = workingdir.name
@property
def will_run(self):
return test_sections[self.section].will_run
def add_xunit(self):
xunit_file = os.path.abspath(self.section + '.xunit.xml')
self.cmd.extend(['--with-xunit', '--xunit-file', xunit_file])
def add_coverage(self):
coverage_rc = ("[run]\n"
"data_file = {data_file}\n"
"source =\n"
" {source}\n"
).format(data_file=os.path.abspath('.coverage.'+self.section),
source="\n ".join(test_sections[self.section].includes))
config_file = os.path.join(self.workingdir.name, '.coveragerc')
with open(config_file, 'w') as f:
f.write(coverage_rc)
self.env['COVERAGE_PROCESS_START'] = config_file
self.pycmd = "import coverage; coverage.process_startup(); " + self.pycmd
def launch(self):
# print('*** ENV:', self.env) # dbg
# print('*** CMD:', self.cmd) # dbg
env = os.environ.copy()
env.update(self.env)
output = subprocess.PIPE if self.buffer_output else None
stdout = subprocess.STDOUT if self.buffer_output else None
self.cmd[2] = self.pycmd
self.process = subprocess.Popen(self.cmd, stdout=output,
stderr=stdout, env=env)
def wait(self):
self.stdout, _ = self.process.communicate()
return self.process.returncode
def cleanup_process(self):
"""Cleanup on exit by killing any leftover processes."""
subp = self.process
if subp is None or (subp.poll() is not None):
return # Process doesn't exist, or is already dead.
try:
print('Cleaning up stale PID: %d' % subp.pid)
subp.kill()
except: # (OSError, WindowsError) ?
# This is just a best effort, if we fail or the process was
# really gone, ignore it.
pass
else:
for i in range(10):
if subp.poll() is None:
time.sleep(0.1)
else:
break
if subp.poll() is None:
# The process did not die...
print('... failed. Manual cleanup may be required.')
def cleanup(self):
"Kill process if it's still alive, and clean up temporary directories"
self.cleanup_process()
for td in self.dirs:
td.cleanup()
__del__ = cleanup
def prepare_test_controllers(inc_slow=False, xunit=False, coverage=False):
"""Returns an ordered list of IPTestController instances to be run."""
to_run, not_run = [], []
if not inc_slow:
test_sections['parallel'].enabled = False
for name in test_group_names:
controller = IPTestController(name)
if xunit:
controller.add_xunit()
if coverage:
controller.add_coverage()
if controller.will_run:
to_run.append(controller)
else:
not_run.append(controller)
return to_run, not_run
def do_run(controller):
try:
try:
controller.launch()
except Exception:
import traceback
traceback.print_exc()
return controller, 1 # signal failure
exitcode = controller.wait()
return controller, exitcode
except KeyboardInterrupt:
return controller, -signal.SIGINT
finally:
controller.cleanup()
def report():
"""Return a string with a summary report of test-related variables."""
out = [ sys_info(), '\n']
avail = []
not_avail = []
for k, is_avail in have.items():
if is_avail:
avail.append(k)
else:
not_avail.append(k)
if avail:
out.append('\nTools and libraries available at test time:\n')
avail.sort()
out.append(' ' + ' '.join(avail)+'\n')
if not_avail:
out.append('\nTools and libraries NOT available at test time:\n')
not_avail.sort()
out.append(' ' + ' '.join(not_avail)+'\n')
return ''.join(out)
def run_iptestall(inc_slow=False, jobs=1, xunit_out=False, coverage_out=False):
"""Run the entire IPython test suite by calling nose and trial.
This function constructs :class:`IPTester` instances for all IPython
modules and package and then runs each of them. This causes the modules
and packages of IPython to be tested each in their own subprocess using
nose.
Parameters
----------
inc_slow : bool, optional
Include slow tests, like IPython.parallel. By default, these tests aren't
run.
fast : bool, option
Run the test suite in parallel, if True, using as many threads as there
are processors
"""
if jobs != 1:
IPTestController.buffer_output = True
to_run, not_run = prepare_test_controllers(inc_slow=inc_slow, xunit=xunit_out,
coverage=coverage_out)
def justify(ltext, rtext, width=70, fill='-'):
ltext += ' '
rtext = (' ' + rtext).rjust(width - len(ltext), fill)
return ltext + rtext
# Run all test runners, tracking execution time
failed = []
t_start = time.time()
print('*'*70)
if jobs == 1:
for controller in to_run:
print('IPython test group:', controller.section)
controller, res = do_run(controller)
if res:
failed.append(controller)
if res == -signal.SIGINT:
print("Interrupted")
break
print()
else:
try:
pool = multiprocessing.pool.ThreadPool(jobs)
for (controller, res) in pool.imap_unordered(do_run, to_run):
res_string = 'OK' if res == 0 else 'FAILED'
print(justify('IPython test group: ' + controller.section, res_string))
if res:
print(controller.stdout)
failed.append(controller)
if res == -signal.SIGINT:
print("Interrupted")
break
except KeyboardInterrupt:
return
for controller in not_run:
print(justify('IPython test group: ' + controller.section, 'NOT RUN'))
t_end = time.time()
t_tests = t_end - t_start
nrunners = len(to_run)
nfail = len(failed)
# summarize results
print('*'*70)
print('Test suite completed for system with the following information:')
print(report())
print('Ran %s test groups in %.3fs' % (nrunners, t_tests))
print()
print('Status:')
if not failed:
print('OK')
else:
# If anything went wrong, point out what command to rerun manually to
# see the actual errors and individual summary
print('ERROR - %s out of %s test groups failed.' % (nfail, nrunners))
for controller in failed:
print('-'*40)
print('Runner failed:', controller.section)
print('You may wish to rerun this one individually, with:')
print(' iptest', *controller.cmd[3:])
print()
if coverage_out:
from coverage import coverage
cov = coverage(data_file='.coverage')
cov.combine()
cov.save()
# Coverage HTML report
if coverage_out == 'html':
html_dir = 'ipy_htmlcov'
shutil.rmtree(html_dir, ignore_errors=True)
print("Writing HTML coverage report to %s/ ... " % html_dir, end="")
sys.stdout.flush()
# Custom HTML reporter to clean up module names.
from coverage.html import HtmlReporter
class CustomHtmlReporter(HtmlReporter):
def find_code_units(self, morfs):
super(CustomHtmlReporter, self).find_code_units(morfs)
for cu in self.code_units:
nameparts = cu.name.split(os.sep)
if 'IPython' not in nameparts:
continue
ix = nameparts.index('IPython')
cu.name = '.'.join(nameparts[ix:])
# Reimplement the html_report method with our custom reporter
cov._harvest_data()
cov.config.from_args(omit='*%stests' % os.sep, html_dir=html_dir,
html_title='IPython test coverage',
)
reporter = CustomHtmlReporter(cov, cov.config)
reporter.report(None)
print('done.')
# Coverage XML report
elif coverage_out == 'xml':
cov.xml_report(outfile='ipy_coverage.xml')
if failed:
# Ensure that our exit code indicates failure
sys.exit(1)
def main():
if len(sys.argv) > 1 and (sys.argv[1] in test_sections):
from .iptest import run_iptest
# This is in-process
run_iptest()
return
parser = argparse.ArgumentParser(description='Run IPython test suite')
parser.add_argument('--all', action='store_true',
help='Include slow tests not run by default.')
parser.add_argument('-j', '--fast', nargs='?', const=None, default=1,
help='Run test sections in parallel.')
parser.add_argument('--xunit', action='store_true',
help='Produce Xunit XML results')
parser.add_argument('--coverage', nargs='?', const=True, default=False,
help="Measure test coverage. Specify 'html' or "
"'xml' to get reports.")
options = parser.parse_args()
try:
jobs = int(options.fast)
except TypeError:
jobs = options.fast
# This starts subprocesses
run_iptestall(inc_slow=options.all, jobs=jobs,
xunit_out=options.xunit, coverage_out=options.coverage)
if __name__ == '__main__':
main()