Mercurial > ~astiob > upreckon > hgweb
view 2.00/test-svn.py @ 29:a8cc383b787c
Clean up zipfiles and diff them to stock ones
author | Oleg Oshmyan <chortos@inbox.lv> |
---|---|
date | Wed, 24 Nov 2010 23:21:31 +0000 |
parents | 5bbb68833868 |
children | f90bd2d1a12b |
line wrap: on
line source
#! /usr/bin/env python # Copyright (c) 2009-2010 Chortos-2 <chortos@inbox.lv> from __future__ import division, with_statement import optparse, sys, compat def import_error(e): say('Error: your installation of test.py is incomplete;', str(e).lower() + '.', file=sys.stderr) sys.exit(3) from compat import * # $Rev$ version = '2.00.0 (SVN r$$REV$$)' parser = optparse.OptionParser(version='test.py '+version, epilog='Python 2.5 or newer is required.') parser.add_option('-1', dest='legacy', action='store_true', default=False, help='handle configuration files in a way more compatible with test.py 1.x') parser.add_option('-u', '--update', dest='update', action='store_true', default=False, help='update the installed test.py to the latest publicly available version') parser.add_option('-p', '--problem', dest='problems', metavar='PROBLEM', action='append', help='test only the PROBLEM (this option can be specified more than once with different problem names, all of which will be tested)') parser.add_option('-m', '--copy-io', dest='copyonly', action='store_true', default=False, help='create a copy of the input/output files of the last test case for manual testing and exit') parser.add_option('-x', '--auto-exit', dest='pause', action='store_false', default=True, help='do not wait for a key to be pressed after finishing testing') parser.add_option('-s', '--save-io', dest='erase', action='store_false', default=True, help='do not delete the copies of input/output files after the last test case; create copies of input files and store output in files even if the solution uses standard I/O; delete the stored input/output files if the solution uses standard I/O and the -c/--cleanup option is specified') parser.add_option('-t', '--detect-time', dest='autotime', action='store_true', default=False, help='spend a second detecting the most precise time measurement function') parser.add_option('--no-time-limits', dest='no_maxtime', action='store_true', default=False, help='disable all time limits') options, args = parser.parse_args() parser.destroy() del parser if options.update: try: urllib, urlread = compat.import_urllib() except ImportError: sys.exit('Error: the urllib Python module is missing. Without it, an automatic update is impossible.') latesttext = urlread('http://chortos.selfip.net/~astiob/test.py/version.txt') latest = latesttext.split('.') installed = version.split('.') update = None if latest[0] > installed[0]: update = 'major' elif latest[0] == installed[0]: if latest[1] > installed[1]: update = 'feature' elif latest[1] == installed[1]: if latest[2] > installed[2]: update = 'bug-fixing' elif latest[2] == installed[2]: say('You are using the latest publicly available version of test.py.') sys.exit() if not update: say('Your copy of test.py is newer than the publicly available version.') sys.exit() say('A ' + update + ' update to test.py is available. Downloading...') sys.stdout.flush() urllib.urlretrieve('http://chortos.selfip.net/~astiob/test.py/test.py', sys.argv[0]) say('Downloaded and installed. Now you are using test.py ' + latesttext + '.') sys.exit() import config, itertools, os, subprocess, sys, time if options.autotime: # This is really a dirty hack that assumes that sleep() does not spend # the CPU time of the current process and that if clock() measures # wall-clock time, then it is more precise than time() is. Both these # assumptions are true on all platforms I have tested this on so far, # but I am not aware of any guarantee that they will both be true # on every other platform. c = time.clock() time.sleep(1) c = time.clock() - c if int(c + .5) == 1: clock = time.clock else: clock = time.time elif sys.platform == 'win32': clock = time.clock else: clock = time.time try: from testcases import pause except ImportError: pause = None try: globalconf = config.load_global() # Do this check here so that if we have to warn them, we do it as early as possible if options.pause and not pause and not hasattr(globalconf, 'pause'): if os.name == 'posix': globalconf.pause = 'read -s -n 1' say('Warning: configuration variable pause is not defined; it was devised automatically but the choice might be incorrect, so test.py might exit immediately after the testing is completed.', file=sys.stderr) sys.stderr.flush() elif os.name == 'nt': globalconf.pause = 'pause' else: sys.exit('Error: configuration variable pause is not defined and cannot be devised automatically.') try: from problem import * except ImportError: import_error(sys.exc_info()[1]) # Support single-problem configurations if globalconf.tasknames is None: shouldprintnames = False globalconf.multiproblem = False globalconf.tasknames = os.path.curdir, else: globalconf.multiproblem = True # TODO: erase the commented part? if it has a tasknames variable, it is by definition multi-problem shouldprintnames = True # try: # shouldprintnames = len(globalconf.tasknames) > 1 # except Exception: # # Try to retrieve the first two problem names and cache them on success # globalconf.tasknames = iter(globalconf.tasknames) # try: # try: # first = next(globalconf.tasknames) # except NameError: # # Python 2.5 lacks the next() built-in # first = globalconf.tasknames.next() # except StopIteration: # globalconf.tasknames = () # shouldprintnames = False # else: # try: # try: # second = next(globalconf.tasknames) # except NameError: # second = globalconf.tasknames.next() # except StopIteration: # globalconf.tasknames = first, # shouldprintnames = False # else: # globalconf.tasknames = itertools.chain((first, second), globalconf.tasknames) # shouldprintnames = True ntasks = 0 nfulltasks = 0 maxscore = 0 realscore = 0 for taskname in (globalconf.tasknames if not options.problems else options.problems): problem = Problem(taskname) if ntasks and not options.copyonly: say() if shouldprintnames: say(taskname) if options.copyonly: problem.copytestdata() else: real, max = problem.test() ntasks += 1 nfulltasks += real == max realscore += real maxscore += max if options.copyonly: sys.exit() if ntasks != 1: say() say('Grand grand total: %g/%g weighted points; %d/%d problems solved fully' % (realscore, maxscore, nfulltasks, ntasks)) except KeyboardInterrupt: sys.exit('Exiting due to a keyboard interrupt.') if options.pause: say('Press any key to exit...') sys.stdout.flush() if pause: pause() elif callable(globalconf.pause): globalconf.pause() else: with open(os.devnull, 'w') as devnull: subprocess.call(globalconf.pause, stdout=devnull, stderr=subprocess.STDOUT)