# -*- coding: utf-8 -*- """IPython Test Suite Runner. This module provides a main entry point to a user script to test IPython itself from the command line. There are two ways of running this script: 1. With the syntax `iptest all`. This runs our entire test suite by calling this script (with different arguments) or trial recursively. This causes modules and package to be tested in different processes, using nose or trial where appropriate. 2. With the regular nose syntax, like `iptest -vvs IPython`. In this form the script simply calls nose, but with special command line flags and plugins loaded. For now, this script requires that both nose and twisted are installed. This will change in the future. """ #----------------------------------------------------------------------------- # Module imports #----------------------------------------------------------------------------- # Stdlib import os import os.path as path import platform import signal import sys import subprocess import tempfile import time import warnings # Ugly, but necessary hack to ensure the test suite finds our version of # IPython and not a possibly different one that may exist system-wide. # Note that this must be done here, so the imports that come next work # correctly even if IPython isn't installed yet. p = os.path ippath = p.abspath(p.join(p.dirname(__file__),'..','..')) sys.path.insert(0, ippath) # Note: monkeypatch! # We need to monkeypatch a small problem in nose itself first, before importing # it for actual use. This should get into nose upstream, but its release cycle # is slow and we need it for our parametric tests to work correctly. from IPython.testing import nosepatch # Now, proceed to import nose itself import nose.plugins.builtin from nose.core import TestProgram # Our own imports from IPython.core import release from IPython.utils import genutils from IPython.utils.platutils import find_cmd, FindCmdError from IPython.testing import globalipapp from IPython.testing import tools from IPython.testing.plugin.ipdoctest import IPythonDoctest pjoin = path.join #----------------------------------------------------------------------------- # Globals #----------------------------------------------------------------------------- # By default, we assume IPython has been installed. But if the test suite is # being run from a source tree that has NOT been installed yet, this flag can # be set to False by the entry point scripts, to let us know that we must call # the source tree versions of the scripts which manipulate sys.path instead of # assuming that things exist system-wide. INSTALLED = True #----------------------------------------------------------------------------- # Warnings control #----------------------------------------------------------------------------- # Twisted generates annoying warnings with Python 2.6, as will do other code # that imports 'sets' as of today warnings.filterwarnings('ignore', 'the sets module is deprecated', DeprecationWarning ) # This one also comes from Twisted warnings.filterwarnings('ignore', 'the sha module is deprecated', DeprecationWarning) # Wx on Fedora11 spits these out warnings.filterwarnings('ignore', 'wxPython/wxWidgets release number mismatch', UserWarning) #----------------------------------------------------------------------------- # Logic for skipping doctests #----------------------------------------------------------------------------- def test_for(mod): """Test to see if mod is importable.""" try: __import__(mod) except (ImportError, RuntimeError): # GTK reports Runtime error if it can't be initialized even if it's # importable. return False else: return True # Global dict where we can store information on what we have and what we don't # have available at test run time have = {} have['curses'] = test_for('_curses') have['wx'] = test_for('wx') have['wx.aui'] = test_for('wx.aui') have['zope.interface'] = test_for('zope.interface') have['twisted'] = test_for('twisted') have['foolscap'] = test_for('foolscap') have['objc'] = test_for('objc') have['pexpect'] = test_for('pexpect') have['gtk'] = test_for('gtk') have['gobject'] = test_for('gobject') #----------------------------------------------------------------------------- # Functions and classes #----------------------------------------------------------------------------- def report(): """Return a string with a summary report of test-related variables.""" out = [ genutils.sys_info() ] out.append('\nRunning from an installed IPython: %s\n' % INSTALLED) 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 make_exclude(): """Make patterns of modules and packages to exclude from testing. For the IPythonDoctest plugin, we need to exclude certain patterns that cause testing problems. We should strive to minimize the number of skipped modules, since this means untested code. As the testing machinery solidifies, this list should eventually become empty. These modules and packages will NOT get scanned by nose at all for tests. """ # Simple utility to make IPython paths more readably, we need a lot of # these below ipjoin = lambda *paths: pjoin('IPython', *paths) exclusions = [ipjoin('external'), ipjoin('frontend', 'process', 'winprocess.py'), # Deprecated old Shell and iplib modules, skip to avoid # warnings ipjoin('Shell'), ipjoin('iplib'), pjoin('IPython_doctest_plugin'), ipjoin('quarantine'), ipjoin('deathrow'), ipjoin('testing', 'attic'), # This guy is probably attic material ipjoin('testing', 'mkdoctests'), # Testing inputhook will need a lot of thought, to figure out # how to have tests that don't lock up with the gui event # loops in the picture ipjoin('lib', 'inputhook'), # Config files aren't really importable stand-alone ipjoin('config', 'default'), ipjoin('config', 'profile'), ] if not have['wx']: exclusions.append(ipjoin('gui')) exclusions.append(ipjoin('frontend', 'wx')) exclusions.append(ipjoin('lib', 'inputhookwx')) if not have['gtk'] or not have['gobject']: exclusions.append(ipjoin('lib', 'inputhookgtk')) if not have['wx.aui']: exclusions.append(ipjoin('gui', 'wx', 'wxIPython')) if not have['objc']: exclusions.append(ipjoin('frontend', 'cocoa')) if not sys.platform == 'win32': exclusions.append(ipjoin('utils', 'platutils_win32')) # These have to be skipped on win32 because the use echo, rm, cd, etc. # See ticket https://bugs.launchpad.net/bugs/366982 if sys.platform == 'win32': exclusions.append(ipjoin('testing', 'plugin', 'test_exampleip')) exclusions.append(ipjoin('testing', 'plugin', 'dtexample')) if not os.name == 'posix': exclusions.append(ipjoin('utils', 'platutils_posix')) if not have['pexpect']: exclusions.extend([ipjoin('scripts', 'irunner'), ipjoin('lib', 'irunner')]) # This is scary. We still have things in frontend and testing that # are being tested by nose that use twisted. We need to rethink # how we are isolating dependencies in testing. if not (have['twisted'] and have['zope.interface'] and have['foolscap']): exclusions.extend( [ipjoin('frontend', 'asyncfrontendbase'), ipjoin('frontend', 'prefilterfrontend'), ipjoin('frontend', 'frontendbase'), ipjoin('frontend', 'linefrontendbase'), ipjoin('frontend', 'tests', 'test_linefrontend'), ipjoin('frontend', 'tests', 'test_frontendbase'), ipjoin('frontend', 'tests', 'test_prefilterfrontend'), ipjoin('frontend', 'tests', 'test_asyncfrontendbase'), ipjoin('testing', 'parametric'), ipjoin('testing', 'util'), ipjoin('testing', 'tests', 'test_decorators_trial'), ] ) # This is needed for the reg-exp to match on win32 in the ipdoctest plugin. if sys.platform == 'win32': exclusions = [s.replace('\\','\\\\') for s in exclusions] return exclusions class IPTester(object): """Call that calls iptest or trial in a subprocess. """ #: string, name of test runner that will be called runner = None #: list, parameters for test runner params = None #: list, arguments of system call to be made to call test runner call_args = None #: list, process ids of subprocesses we start (for cleanup) pids = None def __init__(self, runner='iptest', params=None): """Create new test runner.""" p = os.path if runner == 'iptest': if INSTALLED: self.runner = tools.cmd2argv( p.abspath(find_cmd('iptest'))) + sys.argv[1:] else: # Find our own 'iptest' script OS-level entry point. Don't # look system-wide, so we are sure we pick up *this one*. And # pass through to subprocess call our own sys.argv ippath = p.abspath(p.join(p.dirname(__file__),'..','..')) script = p.join(ippath, 'iptest.py') self.runner = tools.cmd2argv(script) + sys.argv[1:] else: # For trial, it needs to be installed system-wide self.runner = tools.cmd2argv(p.abspath(find_cmd('trial'))) if params is None: params = [] if isinstance(params, str): params = [params] self.params = params # Assemble call self.call_args = self.runner+self.params # Store pids of anything we start to clean up on deletion, if possible # (on posix only, since win32 has no os.kill) self.pids = [] if sys.platform == 'win32': def _run_cmd(self): # On Windows, use os.system instead of subprocess.call, because I # was having problems with subprocess and I just don't know enough # about win32 to debug this reliably. Os.system may be the 'old # fashioned' way to do it, but it works just fine. If someone # later can clean this up that's fine, as long as the tests run # reliably in win32. return os.system(' '.join(self.call_args)) else: def _run_cmd(self): #print >> sys.stderr, '*** CMD:', ' '.join(self.call_args) # dbg subp = subprocess.Popen(self.call_args) self.pids.append(subp.pid) # If this fails, the pid will be left in self.pids and cleaned up # later, but if the wait call succeeds, then we can clear the # stored pid. retcode = subp.wait() self.pids.pop() return retcode def run(self): """Run the stored commands""" try: return self._run_cmd() except: import traceback traceback.print_exc() return 1 # signal failure def __del__(self): """Cleanup on exit by killing any leftover processes.""" if not hasattr(os, 'kill'): return for pid in self.pids: try: print 'Cleaning stale PID:', pid os.kill(pid, signal.SIGKILL) except OSError: # This is just a best effort, if we fail or the process was # really gone, ignore it. pass def make_runners(): """Define the top-level packages that need to be tested. """ # Packages to be tested via nose, that only depend on the stdlib nose_pkg_names = ['config', 'core', 'extensions', 'frontend', 'lib', 'scripts', 'testing', 'utils' ] # The machinery in kernel needs twisted for real testing trial_pkg_names = [] if have['wx']: nose_pkg_names.append('gui') # And add twisted ones if conditions are met if have['zope.interface'] and have['twisted'] and have['foolscap']: # Note that we list the kernel here, though the bulk of it is # twisted-based, because nose picks up doctests that twisted doesn't. nose_pkg_names.append('kernel') trial_pkg_names.append('kernel') # For debugging this code, only load quick stuff #nose_pkg_names = ['core', 'extensions'] # dbg #trial_pkg_names = [] # dbg # Make fully qualified package names prepending 'IPython.' to our name lists nose_packages = ['IPython.%s' % m for m in nose_pkg_names ] trial_packages = ['IPython.%s' % m for m in trial_pkg_names ] # Make runners runners = [ (v, IPTester('iptest', params=v)) for v in nose_packages ] runners.extend([ (v, IPTester('trial', params=v)) for v in trial_packages ]) return runners def run_iptest(): """Run the IPython test suite using nose. This function is called when this script is **not** called with the form `iptest all`. It simply calls nose with appropriate command line flags and accepts all of the standard nose arguments. """ warnings.filterwarnings('ignore', 'This will be removed soon. Use IPython.testing.util instead') argv = sys.argv + [ '--detailed-errors', # extra info in tracebacks # Loading ipdoctest causes problems with Twisted, but # our test suite runner now separates things and runs # all Twisted tests with trial. '--with-ipdoctest', '--ipdoctest-tests','--ipdoctest-extension=txt', # We add --exe because of setuptools' imbecility (it # blindly does chmod +x on ALL files). Nose does the # right thing and it tries to avoid executables, # setuptools unfortunately forces our hand here. This # has been discussed on the distutils list and the # setuptools devs refuse to fix this problem! '--exe', ] if nose.__version__ >= '0.11': # I don't fully understand why we need this one, but depending on what # directory the test suite is run from, if we don't give it, 0 tests # get run. Specifically, if the test suite is run from the source dir # with an argument (like 'iptest.py IPython.core', 0 tests are run, # even if the same call done in this directory works fine). It appears # that if the requested package is in the current dir, nose bails early # by default. Since it's otherwise harmless, leave it in by default # for nose >= 0.11, though unfortunately nose 0.10 doesn't support it. argv.append('--traverse-namespace') # Construct list of plugins, omitting the existing doctest plugin, which # ours replaces (and extends). plugins = [IPythonDoctest(make_exclude())] for p in nose.plugins.builtin.plugins: plug = p() if plug.name == 'doctest': continue plugins.append(plug) # We need a global ipython running in this process globalipapp.start_ipython() # Now nose can run TestProgram(argv=argv, plugins=plugins) def run_iptestall(): """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 or twisted.trial appropriately. """ runners = make_runners() # Run the test runners in a temporary dir so we can nuke it when finished # to clean up any junk files left over by accident. This also makes it # robust against being run in non-writeable directories by mistake, as the # temp dir will always be user-writeable. curdir = os.getcwd() testdir = tempfile.gettempdir() os.chdir(testdir) # Run all test runners, tracking execution time failed = [] t_start = time.time() try: for (name, runner) in runners: print '*'*70 print 'IPython test group:',name res = runner.run() if res: failed.append( (name, runner) ) finally: os.chdir(curdir) t_end = time.time() t_tests = t_end - t_start nrunners = len(runners) nfail = len(failed) # summarize results print 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 name, failed_runner in failed: print '-'*40 print 'Runner failed:',name print 'You may wish to rerun this one individually, with:' print ' '.join(failed_runner.call_args) print def main(): for arg in sys.argv[1:]: if arg.startswith('IPython'): # This is in-process run_iptest() else: # This starts subprocesses run_iptestall() if __name__ == '__main__': main()