#!/usr/bin/env python # # Copyright The SCons Foundation # """runtest - wrapper script for running SCons tests The SCons test suite consists of: * unit tests - *Tests.py files from the SCons/ dir * end-to-end tests - *.py files in the test/ directory that require the custom SCons framework from testing/ This script adds SCons/ and testing/ directories to PYTHONPATH, performs test discovery and processes tests according to options. """ # TODO: normalize requested and testlist/exclude paths for easier comparison. # e.g.: "runtest foo/bar" on windows will produce paths like foo/bar\test.py # this is hard to match with excludelists, and makes those both os.sep-specific # and command-line-typing specific. import argparse import glob import os import re import stat import subprocess import sys import tempfile import threading import time from abc import ABC, abstractmethod from pathlib import Path from queue import Queue cwd = os.getcwd() debug = None scons = None catch_output = False suppress_output = False script = os.path.basename(sys.argv[0]) usagestr = """\ %(script)s [OPTIONS] [TEST ...] """ % locals() epilogstr = """\ Environment Variables: PRESERVE, PRESERVE_{PASS,FAIL,NO_RESULT}: preserve test subdirs TESTCMD_VERBOSE: turn on verbosity in TestCommand\ """ parser = argparse.ArgumentParser( usage=usagestr, epilog=epilogstr, allow_abbrev=False, formatter_class=argparse.RawDescriptionHelpFormatter ) # test selection options: testsel = parser.add_argument_group(description='Test selection options:') testsel.add_argument(metavar='TEST', nargs='*', dest='testlist', help="Select TEST(s) (tests and/or directories) to run") testlisting = testsel.add_mutually_exclusive_group() testlisting.add_argument('-f', '--file', metavar='FILE', dest='testlistfile', help="Select only tests in FILE") testlisting.add_argument('-a', '--all', action='store_true', help="Select all tests") testlisting.add_argument('--retry', action='store_true', help="Rerun the last failed tests in 'failed_tests.log'") testsel.add_argument('--exclude-list', metavar="FILE", dest='excludelistfile', help="""Exclude tests in FILE from current selection""") testtype = testsel.add_mutually_exclusive_group() testtype.add_argument('--e2e-only', action='store_true', help="Exclude unit tests from selection") testtype.add_argument('--unit-only', action='store_true', help="Exclude end-to-end tests from selection") # miscellaneous options parser.add_argument('-b', '--baseline', metavar='BASE', help="Run test scripts against baseline BASE.") parser.add_argument('-d', '--debug', action='store_true', help="Run test scripts under the Python debugger.") parser.add_argument('-D', '--devmode', action='store_true', help="Run tests in Python's development mode (Py3.7+ only).") parser.add_argument('-e', '--external', action='store_true', help="Run the script in external mode (for external Tools)") parser.add_argument('-j', '--jobs', metavar='JOBS', default=1, type=int, help="Run tests in JOBS parallel jobs (0 for cpu_count).") parser.add_argument('-l', '--list', action='store_true', dest='list_only', help="List available tests and exit.") parser.add_argument('-n', '--no-exec', action='store_false', dest='execute_tests', help="No execute, just print command lines.") parser.add_argument('--nopipefiles', action='store_false', dest='allow_pipe_files', help="""Do not use the "file pipe" workaround for subprocess for starting tests. See source code for warnings.""") parser.add_argument('-P', '--python', metavar='PYTHON', help="Use the specified Python interpreter.") parser.add_argument('--quit-on-failure', action='store_true', help="Quit on any test failure.") parser.add_argument('--runner', metavar='CLASS', help="Test runner class for unit tests.") parser.add_argument('-X', dest='scons_exec', action='store_true', help="Test script is executable, don't feed to Python.") parser.add_argument('-x', '--exec', metavar="SCRIPT", help="Test using SCRIPT as path to SCons.") parser.add_argument('--faillog', dest='error_log', metavar="FILE", default='failed_tests.log', help="Log failed tests to FILE (enabled by default, " "default file 'failed_tests.log')") parser.add_argument('--no-faillog', dest='error_log', action='store_const', const=None, default='failed_tests.log', help="Do not log failed tests to a file") parser.add_argument('--no-ignore-skips', dest='dont_ignore_skips', action='store_true', default=False, help="If any tests are skipped, exit status 2") outctl = parser.add_argument_group(description='Output control options:') outctl.add_argument('-k', '--no-progress', action='store_false', dest='print_progress', help="Suppress count and progress percentage messages.") outctl.add_argument('--passed', action='store_true', dest='print_passed_summary', help="Summarize which tests passed.") outctl.add_argument('-q', '--quiet', action='store_false', dest='printcommand', help="Don't print the test being executed.") outctl.add_argument('-s', '--short-progress', action='store_true', help="""Short progress, prints only the command line and a progress percentage.""") outctl.add_argument('-t', '--time', action='store_true', dest='print_times', help="Print test execution time.") outctl.add_argument('--verbose', metavar='LEVEL', type=int, choices=range(1, 4), help="""Set verbose level (1=print executed commands, 2=print commands and non-zero output, 3=print commands and all output).""") # maybe add? # outctl.add_argument('--version', action='version', version='%s 1.0' % script) logctl = parser.add_argument_group(description='Log control options:') logctl.add_argument('-o', '--output', metavar='LOG', help="Save console output to LOG.") logctl.add_argument('--xml', metavar='XML', help="Save results to XML in SCons XML format.") # process args and handle a few specific cases: args = parser.parse_args() # we can't do this check with an argparse exclusive group, since those # only work with optional args, and the cmdline tests (args.testlist) # are not optional args, if args.testlist and (args.testlistfile or args.all or args.retry): sys.stderr.write( parser.format_usage() + "error: command line tests cannot be combined with -f/--file, -a/--all or --retry\n" ) sys.exit(1) if args.retry: args.testlistfile = 'failed_tests.log' if args.testlistfile: # args.testlistfile changes from a string to a pathlib Path object try: p = Path(args.testlistfile) # TODO simplify when Py3.5 dropped if sys.version_info.major == 3 and sys.version_info.minor < 6: args.testlistfile = p.resolve() else: args.testlistfile = p.resolve(strict=True) except FileNotFoundError: sys.stderr.write( parser.format_usage() + 'error: -f/--file testlist file "%s" not found\n' % p ) sys.exit(1) if args.excludelistfile: # args.excludelistfile changes from a string to a pathlib Path object try: p = Path(args.excludelistfile) # TODO simplify when Py3.5 dropped if sys.version_info.major == 3 and sys.version_info.minor < 6: args.excludelistfile = p.resolve() else: args.excludelistfile = p.resolve(strict=True) except FileNotFoundError: sys.stderr.write( parser.format_usage() + 'error: --exclude-list file "%s" not found\n' % p ) sys.exit(1) if args.jobs == 0: try: # on Linux, check available rather then physical CPUs args.jobs = len(os.sched_getaffinity(0)) except AttributeError: # Windows args.jobs = os.cpu_count() # sanity check if args.jobs == 0: sys.stderr.write( parser.format_usage() + "Unable to detect CPU count, give -j a non-zero value\n" ) sys.exit(1) if args.jobs > 1 or args.output: # 1. don't let tests write stdout/stderr directly if multi-job, # else outputs will interleave and be hard to read. # 2. If we're going to write a logfile, we also need to catch the output. catch_output = True if not args.printcommand: suppress_output = catch_output = True if args.verbose: os.environ['TESTCMD_VERBOSE'] = str(args.verbose) if args.short_progress: args.print_progress = True suppress_output = catch_output = True if args.debug: # TODO: add a way to pass a specific debugger debug = "pdb" if args.exec: scons = args.exec # --- setup stdout/stderr --- class Unbuffered: def __init__(self, file): self.file = file def write(self, arg): self.file.write(arg) self.file.flush() def __getattr__(self, attr): return getattr(self.file, attr) sys.stdout = Unbuffered(sys.stdout) sys.stderr = Unbuffered(sys.stderr) # possible alternative: switch to using print, and: # print = functools.partial(print, flush) if args.output: class Tee: def __init__(self, openfile, stream): self.file = openfile self.stream = stream def write(self, data): self.file.write(data) self.stream.write(data) def flush(self, data): self.file.flush(data) self.stream.flush(data) logfile = open(args.output, 'w') # this is not ideal: we monkeypatch stdout/stderr a second time # (already did for Unbuffered), so here we can't easily detect what # state we're in on closedown. Just hope it's okay... sys.stdout = Tee(logfile, sys.stdout) sys.stderr = Tee(logfile, sys.stderr) # --- define helpers ---- if sys.platform == 'win32': # thanks to Eryk Sun for this recipe import ctypes shlwapi = ctypes.OleDLL('shlwapi') shlwapi.AssocQueryStringW.argtypes = ( ctypes.c_ulong, # flags ctypes.c_ulong, # str ctypes.c_wchar_p, # pszAssoc ctypes.c_wchar_p, # pszExtra ctypes.c_wchar_p, # pszOut ctypes.POINTER(ctypes.c_ulong), # pcchOut ) ASSOCF_NOTRUNCATE = 0x00000020 ASSOCF_INIT_IGNOREUNKNOWN = 0x00000400 ASSOCSTR_COMMAND = 1 ASSOCSTR_EXECUTABLE = 2 E_POINTER = ctypes.c_long(0x80004003).value def get_template_command(filetype, verb=None): flags = ASSOCF_INIT_IGNOREUNKNOWN | ASSOCF_NOTRUNCATE assoc_str = ASSOCSTR_COMMAND cch = ctypes.c_ulong(260) while True: buf = (ctypes.c_wchar * cch.value)() try: shlwapi.AssocQueryStringW( flags, assoc_str, filetype, verb, buf, ctypes.byref(cch) ) except OSError as e: if e.winerror != E_POINTER: raise continue break return buf.value _ws = re.compile(r'\s') def escape(s): if _ws.search(s): s = '"' + s + '"' s = s.replace('\\', '\\\\') return s if not catch_output: # Without any output suppressed, we let the subprocess # write its stuff freely to stdout/stderr. def spawn_it(command_args, env): cp = subprocess.run(command_args, shell=False, env=env) return cp.stdout, cp.stderr, cp.returncode else: # Else, we catch the output of both pipes... if args.allow_pipe_files: # The subprocess.Popen() suffers from a well-known # problem. Data for stdout/stderr is read into a # memory buffer of fixed size, 65K which is not very much. # When it fills up, it simply stops letting the child process # write to it. The child will then sit and patiently wait to # be able to write the rest of its output. Hang! # In order to work around this, we follow a suggestion # by Anders Pearson in # https://thraxil.org/users/anders/posts/2008/03/13/Subprocess-Hanging-PIPE-is-your-enemy/ # and pass temp file objects to Popen() instead of the ubiquitous # subprocess.PIPE. def spawn_it(command_args, env): # Create temporary files tmp_stdout = tempfile.TemporaryFile(mode='w+t') tmp_stderr = tempfile.TemporaryFile(mode='w+t') # Start subprocess... cp = subprocess.run( command_args, stdout=tmp_stdout, stderr=tmp_stderr, shell=False, env=env, ) try: # Rewind to start of files tmp_stdout.seek(0) tmp_stderr.seek(0) # Read output spawned_stdout = tmp_stdout.read() spawned_stderr = tmp_stderr.read() finally: # Remove temp files by closing them tmp_stdout.close() tmp_stderr.close() # Return values return spawned_stderr, spawned_stdout, cp.returncode else: # We get here only if the user gave the '--nopipefiles' # option, meaning the "temp file" approach for # subprocess.communicate() above shouldn't be used. # He hopefully knows what he's doing, but again we have a # potential deadlock situation in the following code: # If the subprocess writes a lot of data to its stderr, # the pipe will fill up (nobody's reading it yet) and the # subprocess will wait for someone to read it. # But the parent process is trying to read from stdin # (but the subprocess isn't writing anything there). # Hence a deadlock. # Be dragons here! Better don't use this! def spawn_it(command_args, env): cp = subprocess.run( command_args, stdout=subprocess.PIPE, stderr=subprocess.PIPE, shell=False, env=env, ) return cp.stdout, cp.stderr, cp.returncode class RuntestBase(ABC): """ Base class for tests """ def __init__(self, path, num, spe=None): self.path = path self.num = num self.stdout = self.stderr = self.status = None self.abspath = os.path.abspath(path) self.command_args = [] self.command_str = "" self.test_time = self.total_time = 0 if spe: for d in spe: f = os.path.join(d, path) if os.path.isfile(f): self.abspath = f break @abstractmethod def execute(self): pass class SystemExecutor(RuntestBase): """ Test class for tests executed with spawn_it() """ def execute(self, env): self.stderr, self.stdout, s = spawn_it(self.command_args, env) self.status = s if s < 0 or s > 2: sys.stdout.write("Unexpected exit status %d\n" % s) class PopenExecutor(RuntestBase): """ Test class for tests executed with Popen A bit of a misnomer as the Popen call is now wrapped by calling subprocess.run (behind the covers uses Popen. Very similar to SystemExecutor, but uses command_str instead of command_args, and doesn't allow for not catching the output). """ # For an explanation of the following 'if ... else' # and the 'allow_pipe_files' option, please check out the # definition of spawn_it() above. if args.allow_pipe_files: def execute(self, env): # Create temporary files tmp_stdout = tempfile.TemporaryFile(mode='w+t') tmp_stderr = tempfile.TemporaryFile(mode='w+t') # Start subprocess... cp = subprocess.run( self.command_str.split(), stdout=tmp_stdout, stderr=tmp_stderr, shell=False, env=env, ) self.status = cp.returncode try: # Rewind to start of files tmp_stdout.seek(0) tmp_stderr.seek(0) # Read output self.stdout = tmp_stdout.read() self.stderr = tmp_stderr.read() finally: # Remove temp files by closing them tmp_stdout.close() tmp_stderr.close() else: def execute(self, env): cp = subprocess.run( self.command_str.split(), stdout=subprocess.PIPE, stderr=subprocess.PIPE, shell=False, env=env, ) self.status, self.stdout, self.stderr = cp.returncode, cp.stdout, cp.stderr class XML(PopenExecutor): """ Test class for tests that will output in scons xml """ @staticmethod def header(f): f.write(' \n') def write(self, f): f.write(' \n') f.write(' %s\n' % self.path) f.write(' %s\n' % self.command_str) f.write(' %s\n' % self.status) f.write(' %s\n' % self.stdout) f.write(' %s\n' % self.stderr) f.write(' \n' % self.test_time) f.write(' \n') def footer(self, f): f.write(' \n' % self.total_time) f.write(' \n') if args.xml: Test = XML else: Test = SystemExecutor # --- start processing --- if not args.baseline or args.baseline == '.': baseline = cwd elif args.baseline == '-': print("This logic used to checkout from svn. It's been removed. If you used this, please let us know on devel mailing list, IRC, or discord server") sys.exit(-1) else: baseline = args.baseline scons_runtest_dir = baseline if not args.external: scons_script_dir = os.path.join(baseline, 'scripts') scons_tools_dir = os.path.join(baseline, 'bin') scons_lib_dir = baseline else: scons_script_dir = '' scons_tools_dir = '' scons_lib_dir = '' testenv = { 'SCONS_RUNTEST_DIR': scons_runtest_dir, 'SCONS_TOOLS_DIR': scons_tools_dir, 'SCONS_SCRIPT_DIR': scons_script_dir, 'SCONS_CWD': cwd, } if scons: # Let the version of SCons that the -x option pointed to find # its own modules. testenv['SCONS'] = scons elif scons_lib_dir: # Because SCons is really aggressive about finding its modules, # it sometimes finds SCons modules elsewhere on the system. # This forces SCons to use the modules that are being tested. testenv['SCONS_LIB_DIR'] = scons_lib_dir if args.scons_exec: testenv['SCONS_EXEC'] = '1' if args.external: testenv['SCONS_EXTERNAL_TEST'] = '1' # Insert scons path and path for testing framework to PYTHONPATH scriptpath = os.path.dirname(os.path.realpath(__file__)) frameworkpath = os.path.join(scriptpath, 'testing', 'framework') testenv['PYTHONPATH'] = os.pathsep.join((scons_lib_dir, frameworkpath)) pythonpath = os.environ.get('PYTHONPATH') if pythonpath: testenv['PYTHONPATH'] = testenv['PYTHONPATH'] + os.pathsep + pythonpath if sys.platform == 'win32': # Windows doesn't support "shebang" lines directly (the Python launcher # and Windows Store version do, but you have to get them launched first) # so to directly launch a script we depend on an assoc for .py to work. # Some systems may have none, and in some cases IDE programs take over # the assoc. Detect this so the small number of tests affected can skip. try: python_assoc = get_template_command('.py') except OSError: python_assoc = None if not python_assoc or "py" not in python_assoc: testenv['SCONS_NO_DIRECT_SCRIPT'] = '1' os.environ.update(testenv) # Clear _JAVA_OPTIONS which java tools output to stderr when run breaking tests if '_JAVA_OPTIONS' in os.environ: del os.environ['_JAVA_OPTIONS'] # ---[ test discovery ]------------------------------------ # This section figures which tests to run. # # The initial testlist is made by reading from the testlistfile, # if supplied, or by looking at the test arguments, if supplied, # or by looking for all test files if the "all" argument is supplied. # One of the three is required. # # Each test path, whichever of the three sources it comes from, # specifies either a test file or a directory to search for # SCons tests. SCons code layout assumes that any file under the 'SCons' # subdirectory that ends with 'Tests.py' is a unit test, and any Python # script (*.py) under the 'test' subdirectory is an end-to-end test. # We need to track these because they are invoked differently. # find_unit_tests and find_e2e_tests are used for this searching. # # Note that there are some tests under 'SCons' that *begin* with # 'test_', but they're packaging and installation tests, not # functional tests, so we don't execute them by default. (They can # still be executed by hand, though). # # Test exclusions, if specified, are then applied. def scanlist(testlist): """ Process a testlist file """ tests = [t.strip() for t in testlist if not t.startswith('#')] return [t for t in tests if t] def find_unit_tests(directory): """ Look for unit tests """ result = [] for dirpath, dirnames, filenames in os.walk(directory): # Skip folders containing a sconstest.skip file if 'sconstest.skip' in filenames: continue for fname in filenames: if fname.endswith("Tests.py"): result.append(os.path.join(dirpath, fname)) return sorted(result) def find_e2e_tests(directory): """ Look for end-to-end tests """ result = [] for dirpath, dirnames, filenames in os.walk(directory): # Skip folders containing a sconstest.skip file if 'sconstest.skip' in filenames: continue # Slurp in any tests in exclude lists excludes = [] if ".exclude_tests" in filenames: p = Path(dirpath).joinpath(".exclude_tests") # TODO simplify when Py3.5 dropped if sys.version_info.major == 3 and sys.version_info.minor < 6: excludefile = p.resolve() else: excludefile = p.resolve(strict=True) with excludefile.open() as f: excludes = scanlist(f) for fname in filenames: if fname.endswith(".py") and fname not in excludes: result.append(os.path.join(dirpath, fname)) return sorted(result) # initial selection: unittests = [] endtests = [] if args.testlistfile: with args.testlistfile.open() as f: tests = scanlist(f) else: testpaths = [] if args.all: testpaths = ['SCons', 'test'] elif args.testlist: testpaths = args.testlist for tp in testpaths: # Clean up path so it can match startswith's below # remove leading ./ or .\ if tp.startswith('.') and tp[1] in (os.sep, os.altsep): tp = tp[2:] for path in glob.glob(tp): if os.path.isdir(path): if path.startswith(('SCons', 'testing')): unittests.extend(find_unit_tests(path)) elif path.startswith('test'): endtests.extend(find_e2e_tests(path)) else: if path.endswith("Tests.py"): unittests.append(path) elif path.endswith(".py"): endtests.append(path) tests = sorted(unittests + endtests) # Remove exclusions: if args.e2e_only: tests = [t for t in tests if not t.endswith("Tests.py")] if args.unit_only: tests = [t for t in tests if t.endswith("Tests.py")] if args.excludelistfile: with args.excludelistfile.open() as f: excludetests = scanlist(f) tests = [t for t in tests if t not in excludetests] if not tests: sys.stderr.write(parser.format_usage() + """ error: no tests were found. Tests can be specified on the command line, read from a file with the -f/--file option, or discovered with -a/--all to run all tests. """) sys.exit(1) # ---[ test processing ]----------------------------------- tests = [Test(t, n + 1) for n, t in enumerate(tests)] if args.list_only: for t in tests: sys.stdout.write(t.path + "\n") sys.exit(0) if not args.python: if os.name == 'java': args.python = os.path.join(sys.prefix, 'jython') else: args.python = sys.executable os.environ["python_executable"] = args.python if args.print_times: def print_time(fmt, tm): sys.stdout.write(fmt % tm) else: def print_time(fmt, tm): pass time_func = time.perf_counter total_start_time = time_func() total_num_tests = len(tests) def log_result(t, io_lock=None): """ log the result of a test. "log" in this case means writing to stdout. Since we might be called from from any of several different threads (multi-job run), we need to lock access to the log to avoid interleaving. The same would apply if output was a file. Args: t (Test): (completed) testcase instance io_lock (threading.lock): (optional) lock to use """ # there is no lock in single-job run, which includes # running test/runtest tests from multi-job run, so check. if io_lock: io_lock.acquire() try: if suppress_output or catch_output: sys.stdout.write(t.headline) if not suppress_output: if t.stdout: print(t.stdout) if t.stderr: print(t.stderr) print_time("Test execution time: %.1f seconds\n", t.test_time) finally: if io_lock: io_lock.release() if args.quit_on_failure and t.status == 1: print("Exiting due to error") print(t.status) sys.exit(1) def run_test(t, io_lock=None, run_async=True): """ Run a testcase. Builds the command line to give to execute(). Also the best place to record some information that will be used in output, which in some conditions is printed here. Args: t (Test): testcase instance io_lock (threading.Lock): (optional) lock to use run_async (bool): whether to run asynchronously """ t.headline = "" command_args = [] if debug: command_args.extend(['-m', debug]) if args.devmode and sys.version_info >= (3, 7, 0): command_args.append('-X dev') command_args.append(t.path) if args.runner and t.path in unittests: # For example --runner TestUnit.TAPTestRunner command_args.append('--runner ' + args.runner) t.command_args = [escape(args.python)] + command_args t.command_str = " ".join(t.command_args) if args.printcommand: if args.print_progress: t.headline += "%d/%d (%.2f%s) %s\n" % ( t.num, total_num_tests, float(t.num) * 100.0 / float(total_num_tests), "%", t.command_str, ) else: t.headline += t.command_str + "\n" if not suppress_output and not catch_output: # defer printing the headline until test is done sys.stdout.write(t.headline) head, _ = os.path.split(t.abspath) fixture_dirs = [] if head: fixture_dirs.append(head) fixture_dirs.append(os.path.join(scriptpath, 'test', 'fixture')) # Set the list of fixture dirs directly in the environment. Just putting # it in os.environ and spawning the process is racy. Make it reliable by # overriding the environment passed to execute(). env = dict(os.environ) env['FIXTURE_DIRS'] = os.pathsep.join(fixture_dirs) test_start_time = time_func() if args.execute_tests: t.execute(env) t.test_time = time_func() - test_start_time log_result(t, io_lock=io_lock) class RunTest(threading.Thread): """ Test Runner class. One instance will be created for each job thread in multi-job mode """ def __init__(self, queue=None, io_lock=None, group=None, target=None, name=None): super().__init__(group=group, target=target, name=name) self.queue = queue self.io_lock = io_lock def run(self): for t in iter(self.queue.get, None): run_test(t, io_lock=self.io_lock, run_async=True) self.queue.task_done() if args.jobs > 1: print("Running tests using %d jobs" % args.jobs) testq = Queue() for t in tests: testq.put(t) testlock = threading.Lock() # Start worker threads to consume the queue threads = [RunTest(queue=testq, io_lock=testlock) for _ in range(args.jobs)] for t in threads: t.daemon = True t.start() # wait on the queue rather than the individual threads testq.join() else: for t in tests: run_test(t, io_lock=None, run_async=False) # --- all tests are complete by the time we get here --- if tests: tests[0].total_time = time_func() - total_start_time print_time("Total execution time for all tests: %.1f seconds\n", tests[0].total_time) passed = [t for t in tests if t.status == 0] fail = [t for t in tests if t.status == 1] no_result = [t for t in tests if t.status == 2] # print summaries, but only if multiple tests were run if len(tests) != 1 and args.execute_tests: if passed and args.print_passed_summary: if len(passed) == 1: sys.stdout.write("\nPassed the following test:\n") else: sys.stdout.write("\nPassed the following %d tests:\n" % len(passed)) paths = [x.path for x in passed] sys.stdout.write("\t" + "\n\t".join(paths) + "\n") if fail: if len(fail) == 1: sys.stdout.write("\nFailed the following test:\n") else: sys.stdout.write("\nFailed the following %d tests:\n" % len(fail)) paths = [x.path for x in fail] sys.stdout.write("\t" + "\n\t".join(paths) + "\n") if no_result: if len(no_result) == 1: sys.stdout.write("\nNO RESULT from the following test:\n") else: sys.stdout.write("\nNO RESULT from the following %d tests:\n" % len(no_result)) paths = [x.path for x in no_result] sys.stdout.write("\t" + "\n\t".join(paths) + "\n") # save the fails to a file if args.error_log: with open(args.error_log, "w") as f: if fail: paths = [x.path for x in fail] for test in paths: print(test, file=f) # if there are no fails, file will be cleared if args.xml: if args.output == '-': f = sys.stdout else: f = open(args.xml, 'w') tests[0].header(f) #f.write("test_result = [\n") for t in tests: t.write(f) tests[0].footer(f) #f.write("];\n") if args.output != '-': f.close() if args.output: if isinstance(sys.stdout, Tee): sys.stdout.file.close() if isinstance(sys.stderr, Tee): sys.stderr.file.close() if fail: sys.exit(1) elif no_result and args.dont_ignore_skips: # if no fails, but skips were found sys.exit(2) else: sys.exit(0) # Local Variables: # tab-width:4 # indent-tabs-mode:nil # End: # vim: set expandtab tabstop=4 shiftwidth=4: