Mercurial > ~astiob > upreckon > hgweb
view testcases.py @ 57:855bdfeb32a6
NameErrors within call() are now reported
author | Oleg Oshmyan <chortos@inbox.lv> |
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date | Tue, 21 Dec 2010 02:28:57 +0200 |
parents | 693a938bdeee |
children | c95addbe0851 |
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#! /usr/bin/env python # Copyright (c) 2010 Chortos-2 <chortos@inbox.lv> # TODO: copy the ansfile if not options.erase even if no validator is used from __future__ import division, with_statement try: from compat import * import files, problem, config except ImportError: import __main__ __main__.import_error(sys.exc_info()[1]) else: from __main__ import clock, options import glob, re, sys, tempfile, time from subprocess import Popen, PIPE, STDOUT import os devnull = open(os.path.devnull, 'w+') try: from signal import SIGTERM, SIGKILL except ImportError: SIGTERM = 15 SIGKILL = 9 try: from _subprocess import TerminateProcess except ImportError: # CPython 2.5 does define _subprocess.TerminateProcess even though it is # not used in the subprocess module, but maybe something else does not try: import ctypes TerminateProcess = ctypes.windll.kernel32.TerminateProcess except (ImportError, AttributeError): TerminateProcess = None # Do the hacky-wacky dark magic needed to catch presses of the Escape button. # If only Python supported forcible termination of threads... if not sys.stdin.isatty(): canceled = init_canceled = lambda: False pause = None else: try: # Windows has select() too, but it is not the select() we want import msvcrt except ImportError: try: from select import select import termios, tty, atexit except ImportError: # It cannot be helped! # Silently disable support for killing the program being tested canceled = init_canceled = lambda: False pause = None else: def cleanup(old=termios.tcgetattr(sys.stdin.fileno())): termios.tcsetattr(sys.stdin.fileno(), termios.TCSAFLUSH, old) atexit.register(cleanup) del cleanup tty.setcbreak(sys.stdin.fileno()) def canceled(select=select, stdin=sys.stdin, read=sys.stdin.read): while select((stdin,), (), (), 0)[0]: if read(1) == '\33': return True return False def init_canceled(): while select((sys.stdin,), (), (), 0)[0]: sys.stdin.read(1) def pause(): sys.stdin.read(1) else: def canceled(kbhit=msvcrt.kbhit, getch=msvcrt.getch): while kbhit(): c = getch() if c == '\33': return True elif c == '\0': # Let's hope no-one is fiddling with this getch() return False def init_canceled(): while msvcrt.kbhit(): msvcrt.getch() def pause(): msvcrt.getch() try: from signal import SIGCHLD, signal, SIG_DFL from select import select, error as select_error from errno import EINTR except ImportError: try: import ctypes WaitForMultipleObjects = ctypes.windll.kernel32.WaitForMultipleObjects except (ImportError, AttributeError): pass else: # TODO: implement Win32 call() pass call = None else: # Make SIGCHLD interrupt sleep() and select() def bury_child(signum, frame): try: bury_child.case.time_stopped = clock() except Exception: pass signal(SIGCHLD, bury_child) # If you want this to work, don't set any stdio argument to PIPE def call_real(*args, **kwargs): bury_child.case = case = kwargs.pop('case') # FIXME: kill the process no matter what try: case.process = Popen(*args, **kwargs) except OSError: raise CannotStartTestee(sys.exc_info()[1]) case.time_started = clock() if pause is None: if case.maxtime: time.sleep(case.maxtime) if case.process.poll() is None: raise TimeLimitExceeded else: case.process.wait() else: if not case.maxtime: try: while case.process.poll() is None: if select((sys.stdin,), (), ())[0]: if sys.stdin.read(1) == '\33': raise CanceledByUser except select_error: if sys.exc_info()[1].args[0] != EINTR: raise else: time_end = clock() + case.maxtime try: while case.process.poll() is None: remaining = time_end - clock() if remaining > 0: if select((sys.stdin,), (), (), remaining)[0]: if sys.stdin.read(1) == '\33': raise CanceledByUser else: raise TimeLimitExceeded except select_error: if sys.exc_info()[1].args[0] != EINTR: raise del bury_child.case def call(*args, **kwargs): if 'preexec_fn' in kwargs: try: return call_real(*args, **kwargs) except MemoryError: # If there is not enough memory for the forked test.py, # opt for silent dropping of the limit # TODO: show a warning somewhere del kwargs['preexec_fn'] return call_real(*args, **kwargs) else: return call_real(*args, **kwargs) __all__ = ('TestCase', 'load_problem', 'TestCaseNotPassed', 'TimeLimitExceeded', 'CanceledByUser', 'WrongAnswer', 'NonZeroExitCode', 'CannotStartTestee', 'CannotStartValidator', 'CannotReadOutputFile', 'CannotReadInputFile', 'CannotReadAnswerFile') # Exceptions class TestCaseNotPassed(Exception): __slots__ = () class TimeLimitExceeded(TestCaseNotPassed): __slots__ = () class CanceledByUser(TestCaseNotPassed): __slots__ = () class WrongAnswer(TestCaseNotPassed): __slots__ = 'comment' def __init__(self, comment=''): self.comment = comment class NonZeroExitCode(TestCaseNotPassed): __slots__ = 'exitcode' def __init__(self, exitcode): self.exitcode = exitcode class ExceptionWrapper(TestCaseNotPassed): __slots__ = 'upstream' def __init__(self, upstream): self.upstream = upstream class CannotStartTestee(ExceptionWrapper): __slots__ = () class CannotStartValidator(ExceptionWrapper): __slots__ = () class CannotReadOutputFile(ExceptionWrapper): __slots__ = () class CannotReadInputFile(ExceptionWrapper): __slots__ = () class CannotReadAnswerFile(ExceptionWrapper): __slots__ = () # Helper context managers class CopyDeleting(object): __slots__ = 'case', 'file', 'name' def __init__(self, case, file, name): self.case = case self.file = file self.name = name def __enter__(self): if self.name: try: self.file.copy(self.name) except: try: self.__exit__(None, None, None) except: pass raise def __exit__(self, exc_type, exc_val, exc_tb): if self.name: self.case.files_to_delete.append(self.name) class Copying(object): __slots__ = 'file', 'name' def __init__(self, file, name): self.file = file self.name = name def __enter__(self): if self.name: self.file.copy(self.name) def __exit__(self, exc_type, exc_val, exc_tb): pass # Test case types class TestCase(object): __slots__ = ('problem', 'id', 'isdummy', 'infile', 'outfile', 'points', 'process', 'time_started', 'time_stopped', 'time_limit_string', 'realinname', 'realoutname', 'maxtime', 'maxmemory', 'has_called_back', 'files_to_delete') if ABCMeta: __metaclass__ = ABCMeta def __init__(case, prob, id, isdummy, points): case.problem = prob case.id = id case.isdummy = isdummy case.points = points case.maxtime = case.problem.config.maxtime case.maxmemory = case.problem.config.maxmemory if case.maxtime: case.time_limit_string = '/%.3f' % case.maxtime else: case.time_limit_string = '' if not isdummy: case.realinname = case.problem.config.testcaseinname case.realoutname = case.problem.config.testcaseoutname else: case.realinname = case.problem.config.dummyinname case.realoutname = case.problem.config.dummyoutname @abstractmethod def test(case): raise NotImplementedError def __call__(case, callback): case.has_called_back = False case.files_to_delete = [] try: return case.test(callback) finally: now = clock() if not getattr(case, 'time_started', None): case.time_started = case.time_stopped = now elif not getattr(case, 'time_stopped', None): case.time_stopped = now if not case.has_called_back: callback() case.cleanup() def cleanup(case): #if getattr(case, 'infile', None): # case.infile.close() #if getattr(case, 'outfile', None): # case.outfile.close() if getattr(case, 'process', None): # Try killing after three unsuccessful TERM attempts in a row # (except on Windows, where TERMing is killing) for i in range(3): try: try: case.process.terminate() except AttributeError: # Python 2.5 if TerminateProcess and hasattr(proc, '_handle'): # Windows API TerminateProcess(proc._handle, 1) else: # POSIX os.kill(proc.pid, SIGTERM) except Exception: time.sleep(0) case.process.poll() else: case.process.wait() break else: # If killing the process is unsuccessful three times in a row, # just silently stop trying for i in range(3): try: try: case.process.kill() except AttributeError: # Python 2.5 if TerminateProcess and hasattr(proc, '_handle'): # Windows API TerminateProcess(proc._handle, 1) else: # POSIX os.kill(proc.pid, SIGKILL) except Exception: time.sleep(0) case.process.poll() else: case.process.wait() break if case.files_to_delete: for name in case.files_to_delete: try: os.remove(name) except Exception: # It can't be helped pass def open_infile(case): try: case.infile = files.File('/'.join((case.problem.name, case.realinname.replace('$', case.id)))) except IOError: e = sys.exc_info()[1] raise CannotReadInputFile(e) def open_outfile(case): try: case.outfile = files.File('/'.join((case.problem.name, case.realoutname.replace('$', case.id)))) except IOError: e = sys.exc_info()[1] raise CannotReadAnswerFile(e) class ValidatedTestCase(TestCase): __slots__ = 'validator' def __init__(case, *args): TestCase.__init__(case, *args) if not case.problem.config.tester: case.validator = None else: case.validator = case.problem.config.tester def validate(case, output): if not case.validator: # Compare the output with the reference output case.open_outfile() with case.outfile.open() as refoutput: for line, refline in zip_longest(output, refoutput): if refline is not None and not isinstance(refline, basestring): line = bytes(line, sys.getdefaultencoding()) if line != refline: raise WrongAnswer return 1 elif callable(case.validator): return case.validator(output) else: # Call the validator program output.close() if case.problem.config.ansname: case.open_outfile() case.outfile.copy(case.problem.config.ansname) try: case.process = Popen(case.validator, stdin=devnull, stdout=PIPE, stderr=STDOUT, universal_newlines=True, bufsize=-1) except OSError: raise CannotStartValidator(sys.exc_info()[1]) comment = case.process.communicate()[0].strip() match = re.match(r'(?i)(ok|(?:correct|wrong)(?:(?:\s|_)*answer)?)(?:$|\s+|[.,!:]+\s*)', comment) if match: comment = comment[match.end():] if not case.problem.config.maxexitcode: if case.process.returncode: raise WrongAnswer(comment) else: return 1, comment else: return case.process.returncode / case.problem.config.maxexitcode, comment class BatchTestCase(ValidatedTestCase): __slots__ = () def test(case, callback): init_canceled() if sys.platform == 'win32' or not case.maxmemory: preexec_fn = None else: def preexec_fn(): try: import resource maxmemory = int(case.maxmemory * 1048576) resource.setrlimit(resource.RLIMIT_AS, (maxmemory, maxmemory)) # I would also set a CPU time limit but I do not want the time # that passes between the calls to fork and exec to be counted in except MemoryError: # We do not have enough memory for ourselves; # let the parent know about this raise except Exception: # Well, at least we tried pass case.open_infile() case.time_started = None if case.problem.config.stdio: if options.erase and not case.validator or not case.problem.config.inname: # TODO: re-use the same file name if possible # FIXME: 2.5 lacks the delete parameter with tempfile.NamedTemporaryFile(delete=False) as f: inputdatafname = f.name contextmgr = CopyDeleting(case, case.infile, inputdatafname) else: inputdatafname = case.problem.config.inname contextmgr = Copying(case.infile, inputdatafname) with contextmgr: # FIXME: this U doesn't do anything good for the child process, does it? with open(inputdatafname, 'rU') as infile: with tempfile.TemporaryFile('w+') if options.erase and not case.validator else open(case.problem.config.outname, 'w+') as outfile: if call is not None: call(case.problem.config.path, case=case, stdin=infile, stdout=outfile, stderr=devnull, universal_newlines=True, bufsize=-1, preexec_fn=preexec_fn) else: try: try: case.process = Popen(case.problem.config.path, stdin=infile, stdout=outfile, stderr=devnull, universal_newlines=True, bufsize=-1, preexec_fn=preexec_fn) except MemoryError: # If there is not enough memory for the forked test.py, # opt for silent dropping of the limit # TODO: show a warning somewhere case.process = Popen(case.problem.config.path, stdin=infile, stdout=outfile, stderr=devnull, universal_newlines=True, bufsize=-1) except OSError: raise CannotStartTestee(sys.exc_info()[1]) case.time_started = clock() time_next_check = case.time_started + .15 if not case.maxtime: while True: exitcode, now = case.process.poll(), clock() if exitcode is not None: case.time_stopped = now break # For some reason (probably Microsoft's fault), # msvcrt.kbhit() is slow as hell else: if now >= time_next_check: if canceled(): raise CanceledByUser else: time_next_check = now + .15 time.sleep(.001) else: time_end = case.time_started + case.maxtime while True: exitcode, now = case.process.poll(), clock() if exitcode is not None: case.time_stopped = now break elif now >= time_end: raise TimeLimitExceeded else: if now >= time_next_check: if canceled(): raise CanceledByUser else: time_next_check = now + .15 time.sleep(.001) if config.globalconf.force_zero_exitcode and case.process.returncode: raise NonZeroExitCode(case.process.returncode) callback() case.has_called_back = True outfile.seek(0) return case.validate(outfile) else: case.infile.copy(case.problem.config.inname) if call is not None: call(case.problem.config.path, case=case, stdin=devnull, stdout=devnull, stderr=STDOUT, preexec_fn=preexec_fn) else: try: try: case.process = Popen(case.problem.config.path, stdin=devnull, stdout=devnull, stderr=STDOUT, preexec_fn=preexec_fn) except MemoryError: # If there is not enough memory for the forked test.py, # opt for silent dropping of the limit # TODO: show a warning somewhere case.process = Popen(case.problem.config.path, stdin=devnull, stdout=devnull, stderr=STDOUT) except OSError: raise CannotStartTestee(sys.exc_info()[1]) case.time_started = clock() time_next_check = case.time_started + .15 if not case.maxtime: while True: exitcode, now = case.process.poll(), clock() if exitcode is not None: case.time_stopped = now break else: if now >= time_next_check: if canceled(): raise CanceledByUser else: time_next_check = now + .15 time.sleep(.001) else: time_end = case.time_started + case.maxtime while True: exitcode, now = case.process.poll(), clock() if exitcode is not None: case.time_stopped = now break elif now >= time_end: raise TimeLimitExceeded else: if now >= time_next_check: if canceled(): raise CanceledByUser else: time_next_check = now + .15 time.sleep(.001) if config.globalconf.force_zero_exitcode and case.process.returncode: raise NonZeroExitCode(case.process.returncode) callback() case.has_called_back = True with open(case.problem.config.outname, 'rU') as output: return case.validate(output) # This is the only test case type not executing any programs to be tested class OutputOnlyTestCase(ValidatedTestCase): __slots__ = () def cleanup(case): pass class BestOutputTestCase(ValidatedTestCase): __slots__ = () # This is the only test case type executing two programs simultaneously class ReactiveTestCase(TestCase): __slots__ = () # The basic idea is to launch the program to be tested and the grader # and to pipe their standard I/O from and to each other, # and then to capture the grader's exit code and use it # like the exit code of an output validator is used. def load_problem(prob, _types={'batch' : BatchTestCase, 'outonly' : OutputOnlyTestCase, 'bestout' : BestOutputTestCase, 'reactive': ReactiveTestCase}): # We will need to iterate over these configuration variables twice try: len(prob.config.dummies) except Exception: prob.config.dummies = tuple(prob.config.dummies) try: len(prob.config.tests) except Exception: prob.config.tests = tuple(prob.config.tests) if options.legacy: prob.config.usegroups = False prob.config.tests = list(prob.config.tests) for i, name in enumerate(prob.config.tests): # Same here; we'll need to iterate over them twice try: l = len(name) except Exception: try: name = tuple(name) except TypeError: name = (name,) l = len(name) if len(name) > 1: prob.config.usegroups = True break elif not len(name): prob.config.tests[i] = (name,) # First get prob.cache.padoutput right, # then yield the actual test cases for i in prob.config.dummies: s = 'sample ' + str(i).zfill(prob.config.paddummies) prob.cache.padoutput = max(prob.cache.padoutput, len(s)) if prob.config.usegroups: for group in prob.config.tests: for i in group: s = str(i).zfill(prob.config.padtests) prob.cache.padoutput = max(prob.cache.padoutput, len(s)) for i in prob.config.dummies: s = str(i).zfill(prob.config.paddummies) yield _types[prob.config.kind](prob, s, True, 0) for group in prob.config.tests: yield problem.TestGroup() for i in group: s = str(i).zfill(prob.config.padtests) yield _types[prob.config.kind](prob, s, False, prob.config.pointmap.get(i, prob.config.pointmap.get(None, prob.config.maxexitcode if prob.config.maxexitcode else 1))) yield problem.test_context_end else: for i in prob.config.tests: s = str(i).zfill(prob.config.padtests) prob.cache.padoutput = max(prob.cache.padoutput, len(s)) for i in prob.config.dummies: s = str(i).zfill(prob.config.paddummies) yield _types[prob.config.kind](prob, s, True, 0) for i in prob.config.tests: s = str(i).zfill(prob.config.padtests) yield _types[prob.config.kind](prob, s, False, prob.config.pointmap.get(i, prob.config.pointmap.get(None, prob.config.maxexitcode if prob.config.maxexitcode else 1)))