#! /usr/bin/env python
##############################################################################
#
# Copyright (c) 2001, 2002 Zope Corporation and Contributors.
# All Rights Reserved.
#
# This software is subject to the provisions of the Zope Public License,
# Version 2.0 (ZPL).  A copy of the ZPL should accompany this distribution.
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
# FOR A PARTICULAR PURPOSE.
#
##############################################################################
"""
test.py [-aBbcdDfgGhLmprtTuv] [modfilter [testfilter]]

Test harness.

-a level
--all
    Run the tests at the given level.  Any test at a level at or below this is
    run, any test at a level above this is not run.  Level 0 runs all tests.
    The default is to run tests at level 1.  --all is a shortcut for -a 0.

-b
--build
    Run "python setup.py build" before running tests, where "python"
    is the version of python used to run test.py.  Highly recommended.
    Tests will be run from the build directory.  (Note: In Python < 2.3
    the -q flag is added to the setup.py command line.)

-B
    Run "python setup.py build_ext -i" before running tests.  Tests will be
    run from the source directory.

-c  use pychecker

-d
    Instead of the normal test harness, run a debug version which
    doesn't catch any exceptions.  This is occasionally handy when the
    unittest code catching the exception doesn't work right.
    Unfortunately, the debug harness doesn't print the name of the
    test, so Use With Care.

--dir directory
    Option to limit where tests are searched for. This is
    important when you *really* want to limit the code that gets run.
    For example, if refactoring interfaces, you don't want to see the way
    you have broken setups for tests in other packages. You *just* want to
    run the interface tests.

-D
    Works like -d, except that it loads pdb when an exception occurs.

-f
    Run functional tests instead of unit tests.

-g threshold
    Set the garbage collector generation0 threshold.  This can be used to
    stress memory and gc correctness.  Some crashes are only reproducible when
    the threshold is set to 1 (agressive garbage collection).  Do "-g 0" to
    disable garbage collection altogether.

-G gc_option
    Set the garbage collection debugging flags.  The argument must be one
    of the DEBUG_ flags defined bythe Python gc module.  Multiple options
    can be specified by using "-G OPTION1 -G OPTION2."

--libdir test_root
    Search for tests starting in the specified start directory
    (useful for testing components being developed outside the main
    "src" or "build" trees).

--keepbytecode
    Do not delete all stale bytecode before running tests

-L
    Keep running the selected tests in a loop.  You may experience
    memory leakage.

-t
    Time the individual tests and print a list of the top 50, sorted from
    longest to shortest.

-p
    Show running progress.  It can be combined with -v or -vv.

-r
    Look for refcount problems.
    This requires that Python was built --with-pydebug.

-T
    Use the trace module from Python for code coverage.  XXX This only works
    if trace.py is explicitly added to PYTHONPATH.  The current utility writes
    coverage files to a directory named `coverage' that is parallel to
    `build'.  It also prints a summary to stdout.

-v
    Verbose output.  With one -v, unittest prints a dot (".") for each test
    run.  With -vv, unittest prints the name of each test (for some definition
    of "name" ...).  With no -v, unittest is silent until the end of the run,
    except when errors occur.

    When -p is also specified, the meaning of -v is sligtly changed.  With
    -p and no -v only the percent indicator is displayed.  With -p and -v
    the test name of the current test is shown to the right of the percent
    indicator.  With -p and -vv the test name is not truncated to fit into
    80 columns and it is not cleared after the test finishes.

-u
-m
    Use the PyUnit GUI instead of output to the command line.  The GUI imports
    tests on its own, taking care to reload all dependencies on each run.  The
    debug (-d), verbose (-v), progress (-p), and Loop (-L) options will be
    ignored.  The testfilter filter is also not applied.

    -m starts the gui minimized.  Double-clicking the progress bar will start
    the import and run all tests.


modfilter
testfilter
    Case-sensitive regexps to limit which tests are run, used in search
    (not match) mode.
    In an extension of Python regexp notation, a leading "!" is stripped
    and causes the sense of the remaining regexp to be negated (so "!bc"
    matches any string that does not match "bc", and vice versa).
    By default these act like ".", i.e. nothing is excluded.

    modfilter is applied to a test file's path, starting at "build" and
    including (OS-dependent) path separators.

    testfilter is applied to the (method) name of the unittest methods
    contained in the test files whose paths modfilter matched.

Extreme (yet useful) examples:

    test.py -vvb . "^testWriteClient$"

    Builds the project silently, then runs unittest in verbose mode on all
    tests whose names are precisely "testWriteClient".  Useful when
    debugging a specific test.

    test.py -vvb . "!^testWriteClient$"

    As before, but runs all tests whose names aren't precisely
    "testWriteClient".  Useful to avoid a specific failing test you don't
    want to deal with just yet.

    test.py -m . "!^testWriteClient$"

    As before, but now opens up a minimized PyUnit GUI window (only showing
    the progress bar).  Useful for refactoring runs where you continually want
    to make sure all tests still pass.
"""

import gc
import os
import re
import pdb
import sys
import threading    # just to get at Thread objects created by tests
import time
import traceback
import unittest
import warnings

from distutils.util import get_platform

PLAT_SPEC = "%s-%s" % (get_platform(), sys.version[0:3])

class ImmediateTestResult(unittest._TextTestResult):

    __super_init = unittest._TextTestResult.__init__
    __super_startTest = unittest._TextTestResult.startTest
    __super_printErrors = unittest._TextTestResult.printErrors

    def __init__(self, stream, descriptions, verbosity, debug=0,
                 count=None, progress=0):
        self.__super_init(stream, descriptions, verbosity)
        self._debug = debug
        self._progress = progress
        self._progressWithNames = 0
        self._count = count
        self._testtimes = {}
        # docstrings for tests don't override test-descriptions:
        self.descriptions = False
        if progress and verbosity == 1:
            self.dots = 0
            self._progressWithNames = 1
            self._lastWidth = 0
            self._maxWidth = 80
            try:
                import curses
            except ImportError:
                pass
            else:
                curses.setupterm()
                self._maxWidth = curses.tigetnum('cols')
            self._maxWidth -= len("xxxx/xxxx (xxx.x%): ") + 1

    def stopTest(self, test):
        self._testtimes[test] = time.time() - self._testtimes[test]
        if gc.garbage:
            print "The following test left garbage:"
            print test
            print gc.garbage
            # eat the garbage here, so that the garbage isn't
            # printed for every subsequent test.
            gc.garbage[:] = []

        # Did the test leave any new threads behind?
        new_threads = [t for t in threading.enumerate()
                         if (t.isAlive()
                             and
                             t not in self._threads)]
        if new_threads:
            print "The following test left new threads behind:"
            print test
            print "New thread(s):", new_threads

    def print_times(self, stream, count=None):
        results = self._testtimes.items()
        results.sort(lambda x, y: cmp(y[1], x[1]))
        if count:
            n = min(count, len(results))
            if n:
                print >>stream, "Top %d longest tests:" % n
        else:
            n = len(results)
        if not n:
            return
        for i in range(n):
            print >>stream, "%6dms" % int(results[i][1] * 1000), results[i][0]

    def _print_traceback(self, msg, err, test, errlist):
        if self.showAll or self.dots or self._progress:
            self.stream.writeln("\n")
            self._lastWidth = 0

        tb = "".join(traceback.format_exception(*err))
        self.stream.writeln(msg)
        self.stream.writeln(tb)
        errlist.append((test, tb))

    def startTest(self, test):
        if self._progress:
            self.stream.write("\r%4d" % (self.testsRun + 1))
            if self._count:
                self.stream.write("/%d (%5.1f%%)" % (self._count,
                                  (self.testsRun + 1) * 100.0 / self._count))
            if self.showAll:
                self.stream.write(": ")
            elif self._progressWithNames:
                # XXX will break with multibyte strings
                name = self.getShortDescription(test)
                width = len(name)
                if width < self._lastWidth:
                    name += " " * (self._lastWidth - width)
                self.stream.write(": %s" % name)
                self._lastWidth = width
            self.stream.flush()
        self._threads = threading.enumerate()
        self.__super_startTest(test)
        self._testtimes[test] = time.time()

    def getShortDescription(self, test):
        s = self.getDescription(test)
        if len(s) > self._maxWidth:
            pos = s.find(" (")
            if pos >= 0:
                w = self._maxWidth - (pos + 5)
                if w < 1:
                    # first portion (test method name) is too long
                    s = s[:self._maxWidth-3] + "..."
                else:
                    pre = s[:pos+2]
                    post = s[-w:]
                    s = "%s...%s" % (pre, post)
        return s[:self._maxWidth]

    def addError(self, test, err):
        if self._progress:
            self.stream.write("\r")
        if self._debug:
            raise err[0], err[1], err[2]
        self._print_traceback("Error in test %s" % test, err,
                              test, self.errors)

    def addFailure(self, test, err):
        if self._progress:
            self.stream.write("\r")
        if self._debug:
            raise err[0], err[1], err[2]
        self._print_traceback("Failure in test %s" % test, err,
                              test, self.failures)

    def printErrors(self):
        if self._progress and not (self.dots or self.showAll):
            self.stream.writeln()
        self.__super_printErrors()

    def printErrorList(self, flavor, errors):
        for test, err in errors:
            self.stream.writeln(self.separator1)
            self.stream.writeln("%s: %s" % (flavor, self.getDescription(test)))
            self.stream.writeln(self.separator2)
            self.stream.writeln(err)


class ImmediateTestRunner(unittest.TextTestRunner):

    __super_init = unittest.TextTestRunner.__init__

    def __init__(self, **kwarg):
        debug = kwarg.get("debug")
        if debug is not None:
            del kwarg["debug"]
        progress = kwarg.get("progress")
        if progress is not None:
            del kwarg["progress"]
        self.__super_init(**kwarg)
        self._debug = debug
        self._progress = progress

    def _makeResult(self):
        return ImmediateTestResult(self.stream, self.descriptions,
                                   self.verbosity, debug=self._debug,
                                   count=self._count, progress=self._progress)

    def run(self, test):
        self._count = test.countTestCases()
        return unittest.TextTestRunner.run(self, test)

# setup list of directories to put on the path
class PathInit:
    def __init__(self, build, build_inplace, libdir=None):
        self.inplace = None
        # Figure out if we should test in-place or test in-build.  If the -b
        # or -B option was given, test in the place we were told to build in.
        # Otherwise, we'll look for a build directory and if we find one,
        # we'll test there, otherwise we'll test in-place.
        if build:
            self.inplace = build_inplace
        if self.inplace is None:
            # Need to figure it out
            if os.path.isdir(os.path.join("build", "lib.%s" % PLAT_SPEC)):
                self.inplace = 0
            else:
                self.inplace = 1
        # Calculate which directories we're going to add to sys.path, and cd
        # to the appropriate working directory
        org_cwd = os.getcwd()
        if self.inplace:
            self.libdir = "src"
        else:
            self.libdir = "lib.%s" % PLAT_SPEC
            os.chdir("build")
        # Hack sys.path
        self.cwd = os.getcwd()
        sys.path.insert(0, os.path.join(self.cwd, self.libdir))
        # Hack again for external products.
        global functional
        kind = functional and "functional" or "unit"
        if libdir:
            extra = os.path.join(org_cwd, libdir)
            print "Running %s tests from %s" % (kind, extra)
            self.libdir = extra
            sys.path.insert(0, extra)
        else:
            print "Running %s tests from %s" % (kind, self.cwd)
        # Make sure functional tests find ftesting.zcml
        if functional:
            config_file = 'ftesting.zcml'
            if not self.inplace:
                # We chdired into build, so ftesting.zcml is in the
                # parent directory
                config_file = os.path.join('..', 'ftesting.zcml')
            print "Parsing %s" % config_file
            from zope.testing.functional import FunctionalTestSetup
            FunctionalTestSetup(config_file)

def match(rx, s):
    if not rx:
        return 1
    if rx[0] == "!":
        return re.search(rx[1:], s) is None
    else:
        return re.search(rx, s) is not None

class TestFileFinder:
    def __init__(self, prefix):
        self.files = []
        self._plen = len(prefix)
        if not prefix.endswith(os.sep):
            self._plen += 1
        global functional
        if functional:
            self.dirname = "ftest"
        else:
            self.dirname = "test"

    def visit(self, rx, dir, files):
        if os.path.split(dir)[1] != self.dirname:
            return
        # ignore tests that aren't in packages
        if not "__init__.py" in files:
            if not files or files == ["CVS"]:
                return
            print "not a package", dir
            return

        # Put matching files in matches.  If matches is non-empty,
        # then make sure that the package is importable.
        matches = []
        for file in files:
            if file.startswith('test') and os.path.splitext(file)[-1] == '.py':
                path = os.path.join(dir, file)
                if match(rx, path):
                    matches.append(path)

        # ignore tests when the package can't be imported, possibly due to
        # dependency failures.
        pkg = dir[self._plen:].replace(os.sep, '.')
        try:
            __import__(pkg)
        # We specifically do not want to catch ImportError since that's useful
        # information to know when running the tests.
        except RuntimeError, e:
            if VERBOSE:
                print "skipping %s because: %s" % (pkg, e)
            return
        else:
            self.files.extend(matches)

    def module_from_path(self, path):
        """Return the Python package name indicated by the filesystem path."""
        assert path.endswith(".py")
        path = path[self._plen:-3]
        mod = path.replace(os.sep, ".")
        return mod

def walk_with_symlinks(top, func, arg):
    """Like os.path.walk, but follows symlinks on POSIX systems.

    This could theoreticaly result in an infinite loop, if you create symlink
    cycles in your Zope sandbox, so don't do that.
    """
    try:
        # Prevent 'hidden' files (those starting with '.') from being considered.
        names = [f for f in os.listdir(top) if not f.startswith('.')]
    except os.error:
        return
    func(arg, top, names)
    exceptions = ('.', '..')
    for name in names:
        if name not in exceptions:
            name = os.path.join(top, name)
            if os.path.isdir(name):
                walk_with_symlinks(name, func, arg)


def check_test_dir():
    global test_dir
    if test_dir and not os.path.exists(test_dir):
        d = pathinit.libdir
        d = os.path.join(d, test_dir)
        if os.path.exists(d):
            if not os.path.isdir(d):
                raise ValueError(
                    "%s does not exist and %s is not a directory"
                    % (test_dir, d)
                    )
            test_dir = d
        else:
            raise ValueError("%s does not exist!" % test_dir)


def find_tests(rx):
    global finder
    finder = TestFileFinder(pathinit.libdir)

    check_test_dir()
    walkdir = test_dir or pathinit.libdir
    walk_with_symlinks(walkdir, finder.visit, rx)
    return finder.files

def package_import(modname):
    mod = __import__(modname)
    for part in modname.split(".")[1:]:
        mod = getattr(mod, part)
    return mod

def get_suite(file):
    modname = finder.module_from_path(file)
    try:
        mod = package_import(modname)
    except ImportError, err:
        # print traceback
        print "Error importing %s\n%s" % (modname, err)
        traceback.print_exc()
        if debug:
            raise
        return None
    try:
        suite_func = mod.test_suite
    except AttributeError:
        print "No test_suite() in %s" % file
        return None
    return suite_func()

def filter_testcases(s, rx):
    new = unittest.TestSuite()
    for test in s._tests:
        # See if the levels match
        dolevel = (level == 0) or level >= getattr(test, "level", 0)
        if not dolevel:
            continue
        if isinstance(test, unittest.TestCase):
            name = test.id() # Full test name: package.module.class.method
            name = name[1 + name.rfind("."):] # extract method name
            if not rx or match(rx, name):
                new.addTest(test)
        else:
            filtered = filter_testcases(test, rx)
            if filtered:
                new.addTest(filtered)
    return new

def gui_runner(files, test_filter):
    if build_inplace:
        utildir = os.path.join(os.getcwd(), "utilities")
    else:
        utildir = os.path.join(os.getcwd(), "..", "utilities")
    sys.path.append(utildir)
    import unittestgui
    suites = []
    for file in files:
        suites.append(finder.module_from_path(file) + ".test_suite")

    suites = ", ".join(suites)
    minimal = (GUI == "minimal")
    # unittestgui apparently doesn't take the minimal flag anymore
    unittestgui.main(suites)

class TrackRefs:
    """Object to track reference counts across test runs."""

    def __init__(self):
        self.type2count = {}
        self.type2all = {}

    def update(self):
        obs = sys.getobjects(0)
        type2count = {}
        type2all = {}
        for o in obs:
            all = sys.getrefcount(o)
            t = type(o)
            if t in type2count:
                type2count[t] += 1
                type2all[t] += all
            else:
                type2count[t] = 1
                type2all[t] = all

        ct = [(type2count[t] - self.type2count.get(t, 0),
               type2all[t] - self.type2all.get(t, 0),
               t)
              for t in type2count.iterkeys()]
        ct.sort()
        ct.reverse()
        for delta1, delta2, t in ct:
            if delta1 or delta2:
                print "%-55s %8d %8d" % (t, delta1, delta2)

        self.type2count = type2count
        self.type2all = type2all

def runner(files, test_filter, debug):
    runner = ImmediateTestRunner(verbosity=VERBOSE, debug=debug,
        progress=progress)
    suite = unittest.TestSuite()
    for file in files:
        s = get_suite(file)
        # See if the levels match
        dolevel = (level == 0) or level >= getattr(s, "level", 0)
        if s is not None and dolevel:
            s = filter_testcases(s, test_filter)
            suite.addTest(s)
    try:
        r = runner.run(suite)
        if timesfn:
            r.print_times(open(timesfn, "w"))
            if VERBOSE:
                print "Wrote timing data to", timesfn
        if timetests:
            r.print_times(sys.stdout, timetests)
    except:
        if debugger:
            print "%s:" % (sys.exc_info()[0], )
            print sys.exc_info()[1]
            pdb.post_mortem(sys.exc_info()[2])
        else:
            raise

def remove_stale_bytecode(arg, dirname, names):
    names = map(os.path.normcase, names)
    for name in names:
        if name.endswith(".pyc") or name.endswith(".pyo"):
            srcname = name[:-1]
            if srcname not in names:
                fullname = os.path.join(dirname, name)
                print "Removing stale bytecode file", fullname
                os.unlink(fullname)

def main(module_filter, test_filter, libdir):
    if not keepStaleBytecode:
        os.path.walk(os.curdir, remove_stale_bytecode, None)

    # Get the log.ini file from the current directory instead of possibly
    # buried in the build directory.  XXX This isn't perfect because if
    # log.ini specifies a log file, it'll be relative to the build directory.
    # Hmm...
    logini = os.path.abspath("log.ini")

    # Initialize the path and cwd
    global pathinit
    pathinit = PathInit(build, build_inplace, libdir)

    # Initialize the logging module.

    import logging.config
    logging.basicConfig()

    level = os.getenv("LOGGING")
    if level:
        level = int(level)
    else:
        level = logging.CRITICAL
    logging.root.setLevel(level)

    if os.path.exists(logini):
        logging.config.fileConfig(logini)

    files = find_tests(module_filter)
    files.sort()

    if GUI:
        gui_runner(files, test_filter)
    elif LOOP:
        if REFCOUNT:
            rc = sys.gettotalrefcount()
            track = TrackRefs()
        while 1:
            runner(files, test_filter, debug)
            gc.collect()
            if gc.garbage:
                print "GARBAGE:", len(gc.garbage), gc.garbage
                return
            if REFCOUNT:
                prev = rc
                rc = sys.gettotalrefcount()
                print "totalrefcount=%-8d change=%-6d" % (rc, rc - prev)
                track.update()
    else:
        runner(files, test_filter, debug)


def process_args(argv=None):
    import getopt
    global module_filter
    global test_filter
    global VERBOSE
    global LOOP
    global GUI
    global TRACE
    global REFCOUNT
    global debug
    global debugger
    global build
    global level
    global libdir
    global timesfn
    global timetests
    global progress
    global build_inplace
    global keepStaleBytecode
    global functional
    global test_dir

    if argv is None:
        argv = sys.argv

    module_filter = None
    test_filter = None
    VERBOSE = 2
    LOOP = 0
    GUI = 0
    TRACE = 0
    REFCOUNT = 0
    debug = 0 # Don't collect test results; simply let tests crash
    debugger = 0
    build = 0
    build_inplace = 0
    gcthresh = None
    gcdebug = 0
    gcflags = []
    level = 1
    libdir = '.'
    progress = 0
    timesfn = None
    timetests = 0
    keepStaleBytecode = 0
    functional = 0
    test_dir = None

    try:
        opts, args = getopt.getopt(argv[1:], "a:bBcdDfg:G:hLmprtTuv",
                                   ["all", "help", "libdir=", "times=",
                                    "keepbytecode", "dir=", "build"])
    except getopt.error, msg:
        print msg
        print "Try `python %s -h' for more information." % argv[0]
        sys.exit(2)

    for k, v in opts:
        if k == "-a":
            level = int(v)
        elif k == "--all":
            level = 0
            os.environ["COMPLAIN_IF_TESTS_MISSED"]='1'
        elif k in ("-b", "--build"):
            build = 1
        elif k == "-B":
             build = build_inplace = 1
        elif k == "-c":
            # make sure you have a recent version of pychecker
            if not os.environ.get("PYCHECKER"):
                os.environ["PYCHECKER"] = "-q"
            import pychecker.checker
        elif k == "-d":
            debug = 1
        elif k == "-D":
            debug = 1
            debugger = 1
        elif k == "-f":
            functional = 1
        elif k in ("-h", "--help"):
            print __doc__
            sys.exit(0)
        elif k == "-g":
            gcthresh = int(v)
        elif k == "-G":
            if not v.startswith("DEBUG_"):
                print "-G argument must be DEBUG_ flag, not", repr(v)
                sys.exit(1)
            gcflags.append(v)
        elif k == '--keepbytecode':
            keepStaleBytecode = 1
        elif k == '--libdir':
            libdir = v
        elif k == "-L":
            LOOP = 1
        elif k == "-m":
            GUI = "minimal"
        elif k == "-p":
            progress = 1
        elif k == "-r":
            if hasattr(sys, "gettotalrefcount"):
                REFCOUNT = 1
            else:
                print "-r ignored, because it needs a debug build of Python"
        elif k == "-T":
            TRACE = 1
        elif k == "-t":
            if not timetests:
                timetests = 50
        elif k == "-u":
            GUI = 1
        elif k == "-v":
            VERBOSE += 1
        elif k == "--times":
            try:
                timetests = int(v)
            except ValueError:
                # must be a filename to write
                timesfn = v
        elif k == '--dir':
            test_dir = v

    if gcthresh is not None:
        if gcthresh == 0:
            gc.disable()
            print "gc disabled"
        else:
            gc.set_threshold(gcthresh)
            print "gc threshold:", gc.get_threshold()

    if gcflags:
        val = 0
        for flag in gcflags:
            v = getattr(gc, flag, None)
            if v is None:
                print "Unknown gc flag", repr(flag)
                print gc.set_debug.__doc__
                sys.exit(1)
            val |= v
        gcdebug |= v

    if gcdebug:
        gc.set_debug(gcdebug)

    if build:
        # Python 2.3 is more sane in its non -q output
        if sys.hexversion >= 0x02030000:
            qflag = ""
        else:
            qflag = "-q"
        cmd = sys.executable + " setup.py " + qflag + " build"
        if build_inplace:
            cmd += "_ext -i"
        if VERBOSE:
            print cmd
        sts = os.system(cmd)
        if sts:
            print "Build failed", hex(sts)
            sys.exit(1)

    if VERBOSE:
        kind = functional and "functional" or "unit"
        if level == 0:
            print "Running %s tests at all levels" % kind
        else:
            print "Running %s tests at level %d" % (kind, level)

    # XXX We want to change *visible* warnings into errors.  The next
    # line changes all warnings into errors, including warnings we
    # normally never see.  In particular, test_datetime does some
    # short-integer arithmetic that overflows to long ints, and, by
    # default, Python doesn't display the overflow warning that can
    # be enabled when this happens.  The next line turns that into an
    # error instead.  Guido suggests that a better to get what we're
    # after is to replace warnings.showwarning() with our own thing
    # that raises an error.
##    warnings.filterwarnings("error")
    warnings.filterwarnings("ignore", module="logging")

    if args:
        if len(args) > 1:
            test_filter = args[1]
        module_filter = args[0]
    try:
        if TRACE:
            # if the trace module is used, then we don't exit with
            # status if on a false return value from main.
            coverdir = os.path.join(os.getcwd(), "coverage")
            import trace
            ignoremods = ["os", "posixpath", "stat"]
            tracer = trace.Trace(ignoredirs=[sys.prefix, sys.exec_prefix],
                                 ignoremods=ignoremods,
                                 trace=0, count=1)

            tracer.runctx("main(module_filter, test_filter, libdir)",
                          globals=globals(), locals=vars())
            r = tracer.results()
            path = "/tmp/trace.%s" % os.getpid()
            import cPickle
            f = open(path, "wb")
            cPickle.dump(r, f)
            f.close()
            print path
            r.write_results(show_missing=1, summary=1, coverdir=coverdir)
        else:
            bad = main(module_filter, test_filter, libdir)
            if bad:
                sys.exit(1)
    except ImportError, err:
        print err
        print sys.path
        raise


if __name__ == "__main__":
    process_args()