bugged
stringlengths 4
228k
| fixed
stringlengths 0
96.3M
| __index_level_0__
int64 0
481k
|
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def testformat(formatstr, value, grouping = 0, output=None, func=locale.format): if verbose: if output: print "%s %% %s =? %s ..." %\ (repr(formatstr), repr(value), repr(output)), else: print "%s %% %s works? ..." % (repr(formatstr), repr(value)), result = func(formatstr, value, grouping = grouping) if output and result != output: if verbose: print 'no' print "%s %% %s == %s != %s" %\ (repr(formatstr), repr(value), repr(result), repr(output)) else: if verbose: print "yes"
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def testformat(formatstr, value, grouping = 0, output=None, func=locale.format): if verbose: if output: print "%s %% %s =? %s ..." %\ (repr(formatstr), repr(value), repr(output)), else: print "%s %% %s works? ..." % (repr(formatstr), repr(value)), result = func(formatstr, value, grouping = grouping) if output and result != output: if verbose: print 'no' print "%s %% %s == %s != %s" %\ (repr(formatstr), repr(value), repr(result), repr(output)) else: if verbose: print "yes"
| 14,100
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def testformat(formatstr, value, grouping = 0, output=None, func=locale.format): if verbose: if output: print "%s %% %s =? %s ..." %\ (repr(formatstr), repr(value), repr(output)), else: print "%s %% %s works? ..." % (repr(formatstr), repr(value)), result = func(formatstr, value, grouping = grouping) if output and result != output: if verbose: print 'no' print "%s %% %s == %s != %s" %\ (repr(formatstr), repr(value), repr(result), repr(output)) else: if verbose: print "yes"
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def testformat(formatstr, value, grouping = 0, output=None, func=locale.format): if verbose: if output: print "%s %% %s =? %s ..." %\ (repr(formatstr), repr(value), repr(output)), else: print "%s %% %s works? ..." % (repr(formatstr), repr(value)), result = func(formatstr, value, grouping = grouping) if output and result != output: if verbose: print 'no' print "%s %% %s == %s != %s" %\ (repr(formatstr), repr(value), repr(result), repr(output)) else: if verbose: print "yes"
| 14,101
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def testformat(formatstr, value, grouping = 0, output=None, func=locale.format): if verbose: if output: print "%s %% %s =? %s ..." %\ (repr(formatstr), repr(value), repr(output)), else: print "%s %% %s works? ..." % (repr(formatstr), repr(value)), result = func(formatstr, value, grouping = grouping) if output and result != output: if verbose: print 'no' print "%s %% %s == %s != %s" %\ (repr(formatstr), repr(value), repr(result), repr(output)) else: if verbose: print "yes"
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def testformat(formatstr, value, grouping = 0, output=None, func=locale.format): if verbose: if output: print "%s %% %s =? %s ..." %\ (repr(formatstr), repr(value), repr(output)), else: print "%s %% %s works? ..." % (repr(formatstr), repr(value)), result = func(formatstr, value, grouping = grouping) if output and result != output: if verbose: print 'no' print "%s %% %s == %s != %s" %\ (repr(formatstr), repr(value), repr(result), repr(output)) else: if verbose: print "yes"
| 14,102
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def testformat(formatstr, value, grouping = 0, output=None, func=locale.format): if verbose: if output: print "%s %% %s =? %s ..." %\ (repr(formatstr), repr(value), repr(output)), else: print "%s %% %s works? ..." % (repr(formatstr), repr(value)), result = func(formatstr, value, grouping = grouping) if output and result != output: if verbose: print 'no' print "%s %% %s == %s != %s" %\ (repr(formatstr), repr(value), repr(result), repr(output)) else: if verbose: print "yes"
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def testformat(formatstr, value, grouping = 0, output=None, func=locale.format): if verbose: if output: print "%s %% %s =? %s ..." %\ (repr(formatstr), repr(value), repr(output)), else: print "%s %% %s works? ..." % (repr(formatstr), repr(value)), result = func(formatstr, value, grouping = grouping) if output and result != output: if verbose: print 'no' print "%s %% %s == %s != %s" %\ (repr(formatstr), repr(value), repr(result), repr(output)) else: if verbose: print "yes"
| 14,103
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def testformat(formatstr, value, grouping = 0, output=None, func=locale.format): if verbose: if output: print "%s %% %s =? %s ..." %\ (repr(formatstr), repr(value), repr(output)), else: print "%s %% %s works? ..." % (repr(formatstr), repr(value)), result = func(formatstr, value, grouping = grouping) if output and result != output: if verbose: print 'no' print "%s %% %s == %s != %s" %\ (repr(formatstr), repr(value), repr(result), repr(output)) else: if verbose: print "yes"
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def testformat(formatstr, value, grouping = 0, output=None, func=locale.format): if verbose: if output: print "%s %% %s =? %s ..." %\ (repr(formatstr), repr(value), repr(output)), else: print "%s %% %s works? ..." % (repr(formatstr), repr(value)), result = func(formatstr, value, grouping = grouping) if output and result != output: if verbose: print 'no' print "%s %% %s == %s != %s" %\ (repr(formatstr), repr(value), repr(result), repr(output)) else: if verbose: print "yes"
| 14,104
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def __init__(self, sock=None): dispatcher.__init__(self, sock) self.out_buffer = ''
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def __init__(self, sock=None, map=None): dispatcher.__init__(self, sock, map) self.out_buffer = ''
| 14,105
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def __init__(self, fd): dispatcher.__init__(self) self.connected = True # set it to non-blocking mode flags = fcntl.fcntl(fd, fcntl.F_GETFL, 0) flags = flags | os.O_NONBLOCK fcntl.fcntl(fd, fcntl.F_SETFL, flags) self.set_file(fd)
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def __init__(self, fd, map=None): dispatcher.__init__(self, None, map) self.connected = True # set it to non-blocking mode flags = fcntl.fcntl(fd, fcntl.F_GETFL, 0) flags = flags | os.O_NONBLOCK fcntl.fcntl(fd, fcntl.F_SETFL, flags) self.set_file(fd)
| 14,106
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def test_islice(self): for args in [ # islice(args) should agree with range(args) (10, 20, 3), (10, 3, 20), (10, 20), (10, 3), (20,) ]: self.assertEqual(list(islice(xrange(100), *args)), range(*args))
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def test_islice(self): for args in [ # islice(args) should agree with range(args) (10, 20, 3), (10, 3, 20), (10, 20), (10, 3), (20,) ]: self.assertEqual(list(islice(xrange(100), *args)), range(*args))
| 14,107
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def test_main(verbose=None): import test_itertools suite = unittest.TestSuite() suite.addTest(unittest.makeSuite(TestBasicOps)) test_support.run_suite(suite) test_support.run_doctest(test_itertools, verbose) # verify reference counting import sys if verbose and hasattr(sys, "gettotalrefcount"): counts = [] for i in xrange(5): test_support.run_suite(suite) counts.append(sys.gettotalrefcount()-i) print counts
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def test_main(verbose=None): suite = unittest.TestSuite() suite.addTest(unittest.makeSuite(TestBasicOps)) test_support.run_suite(suite) test_support.run_doctest(test_itertools, verbose) # verify reference counting import sys if verbose and hasattr(sys, "gettotalrefcount"): counts = [] for i in xrange(5): test_support.run_suite(suite) counts.append(sys.gettotalrefcount()-i) print counts
| 14,108
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def test_main(verbose=None): import test_itertools suite = unittest.TestSuite() suite.addTest(unittest.makeSuite(TestBasicOps)) test_support.run_suite(suite) test_support.run_doctest(test_itertools, verbose) # verify reference counting import sys if verbose and hasattr(sys, "gettotalrefcount"): counts = [] for i in xrange(5): test_support.run_suite(suite) counts.append(sys.gettotalrefcount()-i) print counts
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def test_main(verbose=None): import test_itertools suite = unittest.TestSuite() suite.addTest(unittest.makeSuite(TestBasicOps)) test_support.run_suite(suite) # verify reference counting import sys if verbose and hasattr(sys, "gettotalrefcount"): counts = [] for i in xrange(5): test_support.run_suite(suite) counts.append(sys.gettotalrefcount()-i) print counts
| 14,109
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def detect_modules(self): # Ensure that /usr/local is always used if '/usr/local/lib' not in self.compiler.library_dirs: self.compiler.library_dirs.append('/usr/local/lib') if '/usr/local/include' not in self.compiler.include_dirs: self.compiler.include_dirs.append( '/usr/local/include' )
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def detect_modules(self): # Ensure that /usr/local is always used if '/usr/local/lib' not in self.compiler.library_dirs: self.compiler.library_dirs.append('/usr/local/lib') if '/usr/local/include' not in self.compiler.include_dirs: self.compiler.include_dirs.append( '/usr/local/include' )
| 14,110
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def run(self, _no_object=None, _attributes={}, **_arguments): """run: Run the Terminal application Keyword argument _attributes: AppleEvent attribute dictionary """ _code = 'core' _subcode = 'oapp'
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def run(self, _no_object=None, _attributes={}, **_arguments): """run: Run the Terminal application Keyword argument _attributes: AppleEvent attribute dictionary """ _code = 'core' _subcode = 'oapp'
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def quit(self, _no_object=None, _attributes={}, **_arguments): """quit: Quit the Terminal application Keyword argument _attributes: AppleEvent attribute dictionary """ _code = 'core' _subcode = 'quit'
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def quit(self, _no_object=None, _attributes={}, **_arguments): """quit: Quit the Terminal application Keyword argument _attributes: AppleEvent attribute dictionary """ _code = 'core' _subcode = 'quit'
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def count(self, _object=None, _attributes={}, **_arguments): """count: Return the number of elements of a particular class within an object Required argument: a reference to the objects to be counted Keyword argument _attributes: AppleEvent attribute dictionary Returns: the number of objects counted """ _code = 'core' _subcode = 'cnte'
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def count(self, _object=None, _attributes={}, **_arguments): """count: Return the number of elements of a particular class within an object Required argument: a reference to the objects to be counted Keyword argument _attributes: AppleEvent attribute dictionary Returns: the number of objects counted """ _code = 'core' _subcode = 'cnte'
| 14,113
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def do_script(self, _no_object=None, _attributes={}, **_arguments): """do script: Run a UNIX shell script or command Keyword argument with_command: data to be passed to the Terminal application as the command line Keyword argument _attributes: AppleEvent attribute dictionary """ _code = 'core' _subcode = 'dosc'
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def do_script(self, _no_object=None, _attributes={}, **_arguments): """do script: Run a UNIX shell script or command Keyword argument with_command: data to be passed to the Terminal application as the command line Keyword argument _attributes: AppleEvent attribute dictionary """ _code = 'core' _subcode = 'dosc'
| 14,114
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def test(expression, result, exception=None): try: r = eval(expression) except: if exception: if not isinstance(sys.exc_value, exception): print expression, "FAILED" # display name, not actual value if exception is sre.error: print "expected", "sre.error" else: print "expected", exception.__name__ print "got", sys.exc_type.__name__, str(sys.exc_value) else: print expression, "FAILED" traceback.print_exc(file=sys.stdout) else: if exception: print expression, "FAILED" if exception is sre.error: print "expected", "sre.error" else: print "expected", exception.__name__ print "got result", repr(r) else: if r != result: print expression, "FAILED" print "expected", repr(result) print "got result", repr(r)
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def test(expression, result, exception=None): try: r = eval(expression) except: if exception: if not isinstance(sys.exc_value, exception): print expression, "FAILED" # display name, not actual value if exception is sre.error: print "expected", "sre.error" else: print "expected", exception.__name__ print "got", sys.exc_type.__name__, str(sys.exc_value) else: print expression, "FAILED" traceback.print_exc(file=sys.stdout) else: if exception: print expression, "FAILED" if exception is sre.error: print "expected", "sre.error" else: print "expected", exception.__name__ print "got result", repr(r) else: if r != result: print expression, "FAILED" print "expected", repr(result) print "got result", repr(r)
| 14,115
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def test(expression, result, exception=None): try: r = eval(expression) except: if exception: if not isinstance(sys.exc_value, exception): print expression, "FAILED" # display name, not actual value if exception is sre.error: print "expected", "sre.error" else: print "expected", exception.__name__ print "got", sys.exc_type.__name__, str(sys.exc_value) else: print expression, "FAILED" traceback.print_exc(file=sys.stdout) else: if exception: print expression, "FAILED" if exception is sre.error: print "expected", "sre.error" else: print "expected", exception.__name__ print "got result", repr(r) else: if r != result: print expression, "FAILED" print "expected", repr(result) print "got result", repr(r)
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def test(expression, result, exception=None): try: r = eval(expression) except: if exception: if not isinstance(sys.exc_value, exception): print expression, "FAILED" # display name, not actual value if exception is sre.error: print "expected", "sre.error" else: print "expected", exception.__name__ print "got", sys.exc_type.__name__, str(sys.exc_value) else: print expression, "FAILED" traceback.print_exc(file=sys.stdout) else: if exception: print expression, "FAILED" if exception is sre.error: print "expected", "sre.error" else: print "expected", exception.__name__ print "got result", repr(r) else: if r != result: print expression, "FAILED" print "expected", repr(result) print "got result", repr(r)
| 14,116
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def test(expression, result, exception=None): try: r = eval(expression) except: if exception: if not isinstance(sys.exc_value, exception): print expression, "FAILED" # display name, not actual value if exception is sre.error: print "expected", "sre.error" else: print "expected", exception.__name__ print "got", sys.exc_type.__name__, str(sys.exc_value) else: print expression, "FAILED" traceback.print_exc(file=sys.stdout) else: if exception: print expression, "FAILED" if exception is sre.error: print "expected", "sre.error" else: print "expected", exception.__name__ print "got result", repr(r) else: if r != result: print expression, "FAILED" print "expected", repr(result) print "got result", repr(r)
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def test(expression, result, exception=None): try: r = eval(expression) except: if exception: if not isinstance(sys.exc_value, exception): print expression, "FAILED" # display name, not actual value if exception is sre.error: print "expected", "sre.error" else: print "expected", exception.__name__ print "got", sys.exc_type.__name__, str(sys.exc_value) else: print expression, "FAILED" traceback.print_exc(file=sys.stdout) else: if exception: print expression, "FAILED" if exception is sre.error: print "expected", "sre.error" else: print "expected", exception.__name__ print "got result", repr(r) else: if r != result: print expression, "FAILED" print "expected", repr(result) print "got result", repr(r)
| 14,117
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def test(expression, result, exception=None): try: r = eval(expression) except: if exception: if not isinstance(sys.exc_value, exception): print expression, "FAILED" # display name, not actual value if exception is sre.error: print "expected", "sre.error" else: print "expected", exception.__name__ print "got", sys.exc_type.__name__, str(sys.exc_value) else: print expression, "FAILED" traceback.print_exc(file=sys.stdout) else: if exception: print expression, "FAILED" if exception is sre.error: print "expected", "sre.error" else: print "expected", exception.__name__ print "got result", repr(r) else: if r != result: print expression, "FAILED" print "expected", repr(result) print "got result", repr(r)
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def test(expression, result, exception=None): try: r = eval(expression) except: if exception: if not isinstance(sys.exc_value, exception): print expression, "FAILED" # display name, not actual value if exception is sre.error: print "expected", "sre.error" else: print "expected", exception.__name__ print "got", sys.exc_type.__name__, str(sys.exc_value) else: print expression, "FAILED" traceback.print_exc(file=sys.stdout) else: if exception: print expression, "FAILED" if exception is sre.error: print "expected", "sre.error" else: print "expected", exception.__name__ print "got result", repr(r) else: if r != result: print expression, "FAILED" print "expected", repr(result) print "got result", repr(r)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
| 14,128
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
| 14,129
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
| 14,130
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
| 14,131
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
| 14,132
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def bump_num(matchobj): int_value = int(matchobj.group(0)) return str(int_value + 1)
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def poll(timeout=0.0, map=None): if map is None: map = socket_map if map: r = []; w = []; e = [] for fd, obj in map.items(): if obj.readable(): r.append(fd) if obj.writable(): w.append(fd) try: r, w, e = select.select(r, w, e, timeout) except select.error, err: if err[0] != EINTR: raise for fd in r: obj = map.get(fd) if obj is None: continue read(obj) for fd in w: obj = map.get(fd) if obj is None: continue write(obj)
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def poll(timeout=0.0, map=None): if map is None: map = socket_map if map: r = []; w = []; e = [] for fd, obj in map.items(): if obj.readable(): r.append(fd) if obj.writable(): w.append(fd) if [] == r == w == e: time.sleep(timeout) else: try: r, w, e = select.select(r, w, e, timeout) except select.error, err: if err[0] not in (EINTR, ENOENT): raise for fd in r: obj = map.get(fd) if obj is None: continue read(obj) for fd in w: obj = map.get(fd) if obj is None: continue write(obj)
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def strftest(now): if verbose: print "strftime test for", time.ctime(now) nowsecs = str(long(now))[:-1] gmt = time.gmtime(now) now = time.localtime(now) if now[3] < 12: ampm='AM' else: ampm='PM' jan1 = time.localtime(time.mktime((now[0], 1, 1) + (0,)*6)) try: if now[8]: tz = time.tzname[1] else: tz = time.tzname[0] except AttributeError: tz = '' if now[3] > 12: clock12 = now[3] - 12 elif now[3] > 0: clock12 = now[3] else: clock12 = 12 expectations = ( ('%a', calendar.day_abbr[now[6]], 'abbreviated weekday name'), ('%A', calendar.day_name[now[6]], 'full weekday name'), ('%b', calendar.month_abbr[now[1]], 'abbreviated month name'), ('%B', calendar.month_name[now[1]], 'full month name'), # %c see below ('%d', '%02d' % now[2], 'day of month as number (00-31)'), ('%H', '%02d' % now[3], 'hour (00-23)'), ('%I', '%02d' % clock12, 'hour (01-12)'), ('%j', '%03d' % now[7], 'julian day (001-366)'), ('%m', '%02d' % now[1], 'month as number (01-12)'), ('%M', '%02d' % now[4], 'minute, (00-59)'), ('%p', ampm, 'AM or PM as appropriate'), ('%S', '%02d' % now[5], 'seconds of current time (00-60)'), ('%U', '%02d' % ((now[7] + jan1[6])/7), 'week number of the year (Sun 1st)'), ('%w', '%d' % ((1+now[6]) % 7), 'weekday as a number (Sun 1st)'), ('%W', '%02d' % ((now[7] + (jan1[6] - 1)%7)/7), 'week number of the year (Mon 1st)'), # %x see below ('%X', '%02d:%02d:%02d' % (now[3], now[4], now[5]), '%H:%M:%S'), ('%y', '%02d' % (now[0]%100), 'year without century'), ('%Y', '%d' % now[0], 'year with century'), # %Z see below ('%%', '%', 'single percent sign'), ) nonstandard_expectations = ( # These are standard but don't have predictable output ('%c', fixasctime(time.asctime(now)), 'near-asctime() format'), ('%x', '%02d/%02d/%02d' % (now[1], now[2], (now[0]%100)), '%m/%d/%y %H:%M:%S'), ('(%Z)', '(%s)' % tz, 'time zone name'), # These are some platform specific extensions ('%D', '%02d/%02d/%02d' % (now[1], now[2], (now[0]%100)), 'mm/dd/yy'), ('%e', '%2d' % now[2], 'day of month as number, blank padded ( 0-31)'), ('%h', calendar.month_abbr[now[1]], 'abbreviated month name'), ('%k', '%2d' % now[3], 'hour, blank padded ( 0-23)'), ('%n', '\n', 'newline character'), ('%r', '%02d:%02d:%02d %s' % (clock12, now[4], now[5], ampm), '%I:%M:%S %p'), ('%R', '%02d:%02d' % (now[3], now[4]), '%H:%M'), ('%s', nowsecs, 'seconds since the Epoch in UCT'), ('%t', '\t', 'tab character'), ('%T', '%02d:%02d:%02d' % (now[3], now[4], now[5]), '%H:%M:%S'), ('%3y', '%03d' % (now[0]%100), 'year without century rendered using fieldwidth'), ) if verbose: print "Strftime test, platform: %s, Python version: %s" % \ (sys.platform, string.split(sys.version)[0]) for e in expectations: try: result = time.strftime(e[0], now) except ValueError, error: print "Standard '%s' format gave error:" % e[0], error continue if result == e[1]: continue if result[0] == '%': print "Does not support standard '%s' format (%s)" % (e[0], e[2]) else: print "Conflict for %s (%s):" % (e[0], e[2]) print " Expected %s, but got %s" % (e[1], result) for e in nonstandard_expectations: try: result = time.strftime(e[0], now) except ValueError, result: if verbose: print "Error for nonstandard '%s' format (%s): %s" % \ (e[0], e[2], str(result)) continue if result == e[1]: if verbose: print "Supports nonstandard '%s' format (%s)" % (e[0], e[2]) elif result[0] == '%': if verbose: print "Does not appear to support '%s' format (%s)" % (e[0], e[2]) else: if verbose: print "Conflict for nonstandard '%s' format (%s):" % (e[0], e[2]) print " Expected %s, but got %s" % (e[1], result)
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def strftest(now): if verbose: print "strftime test for", time.ctime(now) nowsecs = str(long(now))[:-1] gmt = time.gmtime(now) now = time.localtime(now) if now[3] < 12: ampm='AM' else: ampm='PM' jan1 = time.localtime(time.mktime((now[0], 1, 1) + (0,)*6)) try: if now[8]: tz = time.tzname[1] else: tz = time.tzname[0] except AttributeError: tz = '' if now[3] > 12: clock12 = now[3] - 12 elif now[3] > 0: clock12 = now[3] else: clock12 = 12 expectations = ( ('%a', calendar.day_abbr[now[6]], 'abbreviated weekday name'), ('%A', calendar.day_name[now[6]], 'full weekday name'), ('%b', calendar.month_abbr[now[1]], 'abbreviated month name'), ('%B', calendar.month_name[now[1]], 'full month name'), # %c see below ('%d', '%02d' % now[2], 'day of month as number (00-31)'), ('%H', '%02d' % now[3], 'hour (00-23)'), ('%I', '%02d' % clock12, 'hour (01-12)'), ('%j', '%03d' % now[7], 'julian day (001-366)'), ('%m', '%02d' % now[1], 'month as number (01-12)'), ('%M', '%02d' % now[4], 'minute, (00-59)'), ('%p', ampm, 'AM or PM as appropriate'), ('%S', '%02d' % now[5], 'seconds of current time (00-60)'), ('%U', '%02d' % ((now[7] + jan1[6])/7), 'week number of the year (Sun 1st)'), ('%w', '0?%d' % ((1+now[6]) % 7), 'weekday as a number (Sun 1st)'), ('%W', '%02d' % ((now[7] + (jan1[6] - 1)%7)/7), 'week number of the year (Mon 1st)'), # %x see below ('%X', '%02d:%02d:%02d' % (now[3], now[4], now[5]), '%H:%M:%S'), ('%y', '%02d' % (now[0]%100), 'year without century'), ('%Y', '%d' % now[0], 'year with century'), # %Z see below ('%%', '%', 'single percent sign'), ) nonstandard_expectations = ( # These are standard but don't have predictable output ('%c', fixasctime(time.asctime(now)), 'near-asctime() format'), ('%x', '%02d/%02d/%02d' % (now[1], now[2], (now[0]%100)), '%m/%d/%y %H:%M:%S'), ('(%Z)', '(%s)' % tz, 'time zone name'), # These are some platform specific extensions ('%D', '%02d/%02d/%02d' % (now[1], now[2], (now[0]%100)), 'mm/dd/yy'), ('%e', '%2d' % now[2], 'day of month as number, blank padded ( 0-31)'), ('%h', calendar.month_abbr[now[1]], 'abbreviated month name'), ('%k', '%2d' % now[3], 'hour, blank padded ( 0-23)'), ('%n', '\n', 'newline character'), ('%r', '%02d:%02d:%02d %s' % (clock12, now[4], now[5], ampm), '%I:%M:%S %p'), ('%R', '%02d:%02d' % (now[3], now[4]), '%H:%M'), ('%s', nowsecs, 'seconds since the Epoch in UCT'), ('%t', '\t', 'tab character'), ('%T', '%02d:%02d:%02d' % (now[3], now[4], now[5]), '%H:%M:%S'), ('%3y', '%03d' % (now[0]%100), 'year without century rendered using fieldwidth'), ) if verbose: print "Strftime test, platform: %s, Python version: %s" % \ (sys.platform, string.split(sys.version)[0]) for e in expectations: try: result = time.strftime(e[0], now) except ValueError, error: print "Standard '%s' format gave error:" % e[0], error continue if result == e[1]: continue if result[0] == '%': print "Does not support standard '%s' format (%s)" % (e[0], e[2]) else: print "Conflict for %s (%s):" % (e[0], e[2]) print " Expected %s, but got %s" % (e[1], result) for e in nonstandard_expectations: try: result = time.strftime(e[0], now) except ValueError, result: if verbose: print "Error for nonstandard '%s' format (%s): %s" % \ (e[0], e[2], str(result)) continue if result == e[1]: if verbose: print "Supports nonstandard '%s' format (%s)" % (e[0], e[2]) elif result[0] == '%': if verbose: print "Does not appear to support '%s' format (%s)" % (e[0], e[2]) else: if verbose: print "Conflict for nonstandard '%s' format (%s):" % (e[0], e[2]) print " Expected %s, but got %s" % (e[1], result)
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def strftest(now): if verbose: print "strftime test for", time.ctime(now) nowsecs = str(long(now))[:-1] gmt = time.gmtime(now) now = time.localtime(now) if now[3] < 12: ampm='AM' else: ampm='PM' jan1 = time.localtime(time.mktime((now[0], 1, 1) + (0,)*6)) try: if now[8]: tz = time.tzname[1] else: tz = time.tzname[0] except AttributeError: tz = '' if now[3] > 12: clock12 = now[3] - 12 elif now[3] > 0: clock12 = now[3] else: clock12 = 12 expectations = ( ('%a', calendar.day_abbr[now[6]], 'abbreviated weekday name'), ('%A', calendar.day_name[now[6]], 'full weekday name'), ('%b', calendar.month_abbr[now[1]], 'abbreviated month name'), ('%B', calendar.month_name[now[1]], 'full month name'), # %c see below ('%d', '%02d' % now[2], 'day of month as number (00-31)'), ('%H', '%02d' % now[3], 'hour (00-23)'), ('%I', '%02d' % clock12, 'hour (01-12)'), ('%j', '%03d' % now[7], 'julian day (001-366)'), ('%m', '%02d' % now[1], 'month as number (01-12)'), ('%M', '%02d' % now[4], 'minute, (00-59)'), ('%p', ampm, 'AM or PM as appropriate'), ('%S', '%02d' % now[5], 'seconds of current time (00-60)'), ('%U', '%02d' % ((now[7] + jan1[6])/7), 'week number of the year (Sun 1st)'), ('%w', '%d' % ((1+now[6]) % 7), 'weekday as a number (Sun 1st)'), ('%W', '%02d' % ((now[7] + (jan1[6] - 1)%7)/7), 'week number of the year (Mon 1st)'), # %x see below ('%X', '%02d:%02d:%02d' % (now[3], now[4], now[5]), '%H:%M:%S'), ('%y', '%02d' % (now[0]%100), 'year without century'), ('%Y', '%d' % now[0], 'year with century'), # %Z see below ('%%', '%', 'single percent sign'), ) nonstandard_expectations = ( # These are standard but don't have predictable output ('%c', fixasctime(time.asctime(now)), 'near-asctime() format'), ('%x', '%02d/%02d/%02d' % (now[1], now[2], (now[0]%100)), '%m/%d/%y %H:%M:%S'), ('(%Z)', '(%s)' % tz, 'time zone name'), # These are some platform specific extensions ('%D', '%02d/%02d/%02d' % (now[1], now[2], (now[0]%100)), 'mm/dd/yy'), ('%e', '%2d' % now[2], 'day of month as number, blank padded ( 0-31)'), ('%h', calendar.month_abbr[now[1]], 'abbreviated month name'), ('%k', '%2d' % now[3], 'hour, blank padded ( 0-23)'), ('%n', '\n', 'newline character'), ('%r', '%02d:%02d:%02d %s' % (clock12, now[4], now[5], ampm), '%I:%M:%S %p'), ('%R', '%02d:%02d' % (now[3], now[4]), '%H:%M'), ('%s', nowsecs, 'seconds since the Epoch in UCT'), ('%t', '\t', 'tab character'), ('%T', '%02d:%02d:%02d' % (now[3], now[4], now[5]), '%H:%M:%S'), ('%3y', '%03d' % (now[0]%100), 'year without century rendered using fieldwidth'), ) if verbose: print "Strftime test, platform: %s, Python version: %s" % \ (sys.platform, string.split(sys.version)[0]) for e in expectations: try: result = time.strftime(e[0], now) except ValueError, error: print "Standard '%s' format gave error:" % e[0], error continue if result == e[1]: continue if result[0] == '%': print "Does not support standard '%s' format (%s)" % (e[0], e[2]) else: print "Conflict for %s (%s):" % (e[0], e[2]) print " Expected %s, but got %s" % (e[1], result) for e in nonstandard_expectations: try: result = time.strftime(e[0], now) except ValueError, result: if verbose: print "Error for nonstandard '%s' format (%s): %s" % \ (e[0], e[2], str(result)) continue if result == e[1]: if verbose: print "Supports nonstandard '%s' format (%s)" % (e[0], e[2]) elif result[0] == '%': if verbose: print "Does not appear to support '%s' format (%s)" % (e[0], e[2]) else: if verbose: print "Conflict for nonstandard '%s' format (%s):" % (e[0], e[2]) print " Expected %s, but got %s" % (e[1], result)
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def strftest(now): if verbose: print "strftime test for", time.ctime(now) nowsecs = str(long(now))[:-1] gmt = time.gmtime(now) now = time.localtime(now) if now[3] < 12: ampm='AM' else: ampm='PM' jan1 = time.localtime(time.mktime((now[0], 1, 1) + (0,)*6)) try: if now[8]: tz = time.tzname[1] else: tz = time.tzname[0] except AttributeError: tz = '' if now[3] > 12: clock12 = now[3] - 12 elif now[3] > 0: clock12 = now[3] else: clock12 = 12 expectations = ( ('%a', calendar.day_abbr[now[6]], 'abbreviated weekday name'), ('%A', calendar.day_name[now[6]], 'full weekday name'), ('%b', calendar.month_abbr[now[1]], 'abbreviated month name'), ('%B', calendar.month_name[now[1]], 'full month name'), # %c see below ('%d', '%02d' % now[2], 'day of month as number (00-31)'), ('%H', '%02d' % now[3], 'hour (00-23)'), ('%I', '%02d' % clock12, 'hour (01-12)'), ('%j', '%03d' % now[7], 'julian day (001-366)'), ('%m', '%02d' % now[1], 'month as number (01-12)'), ('%M', '%02d' % now[4], 'minute, (00-59)'), ('%p', ampm, 'AM or PM as appropriate'), ('%S', '%02d' % now[5], 'seconds of current time (00-60)'), ('%U', '%02d' % ((now[7] + jan1[6])/7), 'week number of the year (Sun 1st)'), ('%w', '%d' % ((1+now[6]) % 7), 'weekday as a number (Sun 1st)'), ('%W', '%02d' % ((now[7] + (jan1[6] - 1)%7)/7), 'week number of the year (Mon 1st)'), # %x see below ('%X', '%02d:%02d:%02d' % (now[3], now[4], now[5]), '%H:%M:%S'), ('%y', '%02d' % (now[0]%100), 'year without century'), ('%Y', '%d' % now[0], 'year with century'), # %Z see below ('%%', '%', 'single percent sign'), ) nonstandard_expectations = ( # These are standard but don't have predictable output ('%c', fixasctime(time.asctime(now)), 'near-asctime() format'), ('%x', '%02d/%02d/%02d' % (now[1], now[2], (now[0]%100)), '%m/%d/%y %H:%M:%S'), ('%Z', '%s' % tz, 'time zone name'), # These are some platform specific extensions ('%D', '%02d/%02d/%02d' % (now[1], now[2], (now[0]%100)), 'mm/dd/yy'), ('%e', '%2d' % now[2], 'day of month as number, blank padded ( 0-31)'), ('%h', calendar.month_abbr[now[1]], 'abbreviated month name'), ('%k', '%2d' % now[3], 'hour, blank padded ( 0-23)'), ('%n', '\n', 'newline character'), ('%r', '%02d:%02d:%02d %s' % (clock12, now[4], now[5], ampm), '%I:%M:%S %p'), ('%R', '%02d:%02d' % (now[3], now[4]), '%H:%M'), ('%s', nowsecs, 'seconds since the Epoch in UCT'), ('%t', '\t', 'tab character'), ('%T', '%02d:%02d:%02d' % (now[3], now[4], now[5]), '%H:%M:%S'), ('%3y', '%03d' % (now[0]%100), 'year without century rendered using fieldwidth'), ) if verbose: print "Strftime test, platform: %s, Python version: %s" % \ (sys.platform, string.split(sys.version)[0]) for e in expectations: try: result = time.strftime(e[0], now) except ValueError, error: print "Standard '%s' format gave error:" % e[0], error continue if result == e[1]: continue if result[0] == '%': print "Does not support standard '%s' format (%s)" % (e[0], e[2]) else: print "Conflict for %s (%s):" % (e[0], e[2]) print " Expected %s, but got %s" % (e[1], result) for e in nonstandard_expectations: try: result = time.strftime(e[0], now) except ValueError, result: if verbose: print "Error for nonstandard '%s' format (%s): %s" % \ (e[0], e[2], str(result)) continue if result == e[1]: if verbose: print "Supports nonstandard '%s' format (%s)" % (e[0], e[2]) elif result[0] == '%': if verbose: print "Does not appear to support '%s' format (%s)" % (e[0], e[2]) else: if verbose: print "Conflict for nonstandard '%s' format (%s):" % (e[0], e[2]) print " Expected %s, but got %s" % (e[1], result)
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def strftest(now): if verbose: print "strftime test for", time.ctime(now) nowsecs = str(long(now))[:-1] gmt = time.gmtime(now) now = time.localtime(now) if now[3] < 12: ampm='AM' else: ampm='PM' jan1 = time.localtime(time.mktime((now[0], 1, 1) + (0,)*6)) try: if now[8]: tz = time.tzname[1] else: tz = time.tzname[0] except AttributeError: tz = '' if now[3] > 12: clock12 = now[3] - 12 elif now[3] > 0: clock12 = now[3] else: clock12 = 12 expectations = ( ('%a', calendar.day_abbr[now[6]], 'abbreviated weekday name'), ('%A', calendar.day_name[now[6]], 'full weekday name'), ('%b', calendar.month_abbr[now[1]], 'abbreviated month name'), ('%B', calendar.month_name[now[1]], 'full month name'), # %c see below ('%d', '%02d' % now[2], 'day of month as number (00-31)'), ('%H', '%02d' % now[3], 'hour (00-23)'), ('%I', '%02d' % clock12, 'hour (01-12)'), ('%j', '%03d' % now[7], 'julian day (001-366)'), ('%m', '%02d' % now[1], 'month as number (01-12)'), ('%M', '%02d' % now[4], 'minute, (00-59)'), ('%p', ampm, 'AM or PM as appropriate'), ('%S', '%02d' % now[5], 'seconds of current time (00-60)'), ('%U', '%02d' % ((now[7] + jan1[6])/7), 'week number of the year (Sun 1st)'), ('%w', '%d' % ((1+now[6]) % 7), 'weekday as a number (Sun 1st)'), ('%W', '%02d' % ((now[7] + (jan1[6] - 1)%7)/7), 'week number of the year (Mon 1st)'), # %x see below ('%X', '%02d:%02d:%02d' % (now[3], now[4], now[5]), '%H:%M:%S'), ('%y', '%02d' % (now[0]%100), 'year without century'), ('%Y', '%d' % now[0], 'year with century'), # %Z see below ('%%', '%', 'single percent sign'), ) nonstandard_expectations = ( # These are standard but don't have predictable output ('%c', fixasctime(time.asctime(now)), 'near-asctime() format'), ('%x', '%02d/%02d/%02d' % (now[1], now[2], (now[0]%100)), '%m/%d/%y %H:%M:%S'), ('(%Z)', '(%s)' % tz, 'time zone name'), # These are some platform specific extensions ('%D', '%02d/%02d/%02d' % (now[1], now[2], (now[0]%100)), 'mm/dd/yy'), ('%e', '%2d' % now[2], 'day of month as number, blank padded ( 0-31)'), ('%h', calendar.month_abbr[now[1]], 'abbreviated month name'), ('%k', '%2d' % now[3], 'hour, blank padded ( 0-23)'), ('%n', '\n', 'newline character'), ('%r', '%02d:%02d:%02d %s' % (clock12, now[4], now[5], ampm), '%I:%M:%S %p'), ('%R', '%02d:%02d' % (now[3], now[4]), '%H:%M'), ('%s', nowsecs, 'seconds since the Epoch in UCT'), ('%t', '\t', 'tab character'), ('%T', '%02d:%02d:%02d' % (now[3], now[4], now[5]), '%H:%M:%S'), ('%3y', '%03d' % (now[0]%100), 'year without century rendered using fieldwidth'), ) if verbose: print "Strftime test, platform: %s, Python version: %s" % \ (sys.platform, string.split(sys.version)[0]) for e in expectations: try: result = time.strftime(e[0], now) except ValueError, error: print "Standard '%s' format gave error:" % e[0], error continue if result == e[1]: continue if result[0] == '%': print "Does not support standard '%s' format (%s)" % (e[0], e[2]) else: print "Conflict for %s (%s):" % (e[0], e[2]) print " Expected %s, but got %s" % (e[1], result) for e in nonstandard_expectations: try: result = time.strftime(e[0], now) except ValueError, result: if verbose: print "Error for nonstandard '%s' format (%s): %s" % \ (e[0], e[2], str(result)) continue if result == e[1]: if verbose: print "Supports nonstandard '%s' format (%s)" % (e[0], e[2]) elif result[0] == '%': if verbose: print "Does not appear to support '%s' format (%s)" % (e[0], e[2]) else: if verbose: print "Conflict for nonstandard '%s' format (%s):" % (e[0], e[2]) print " Expected %s, but got %s" % (e[1], result)
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def strftest(now): if verbose: print "strftime test for", time.ctime(now) nowsecs = str(long(now))[:-1] gmt = time.gmtime(now) now = time.localtime(now) if now[3] < 12: ampm='AM' else: ampm='PM' jan1 = time.localtime(time.mktime((now[0], 1, 1) + (0,)*6)) try: if now[8]: tz = time.tzname[1] else: tz = time.tzname[0] except AttributeError: tz = '' if now[3] > 12: clock12 = now[3] - 12 elif now[3] > 0: clock12 = now[3] else: clock12 = 12 expectations = ( ('%a', calendar.day_abbr[now[6]], 'abbreviated weekday name'), ('%A', calendar.day_name[now[6]], 'full weekday name'), ('%b', calendar.month_abbr[now[1]], 'abbreviated month name'), ('%B', calendar.month_name[now[1]], 'full month name'), # %c see below ('%d', '%02d' % now[2], 'day of month as number (00-31)'), ('%H', '%02d' % now[3], 'hour (00-23)'), ('%I', '%02d' % clock12, 'hour (01-12)'), ('%j', '%03d' % now[7], 'julian day (001-366)'), ('%m', '%02d' % now[1], 'month as number (01-12)'), ('%M', '%02d' % now[4], 'minute, (00-59)'), ('%p', ampm, 'AM or PM as appropriate'), ('%S', '%02d' % now[5], 'seconds of current time (00-60)'), ('%U', '%02d' % ((now[7] + jan1[6])/7), 'week number of the year (Sun 1st)'), ('%w', '%d' % ((1+now[6]) % 7), 'weekday as a number (Sun 1st)'), ('%W', '%02d' % ((now[7] + (jan1[6] - 1)%7)/7), 'week number of the year (Mon 1st)'), # %x see below ('%X', '%02d:%02d:%02d' % (now[3], now[4], now[5]), '%H:%M:%S'), ('%y', '%02d' % (now[0]%100), 'year without century'), ('%Y', '%d' % now[0], 'year with century'), # %Z see below ('%%', '%', 'single percent sign'), ) nonstandard_expectations = ( # These are standard but don't have predictable output ('%c', fixasctime(time.asctime(now)), 'near-asctime() format'), ('%x', '%02d/%02d/%02d' % (now[1], now[2], (now[0]%100)), '%m/%d/%y %H:%M:%S'), ('(%Z)', '(%s)' % tz, 'time zone name'), # These are some platform specific extensions ('%D', '%02d/%02d/%02d' % (now[1], now[2], (now[0]%100)), 'mm/dd/yy'), ('%e', '%2d' % now[2], 'day of month as number, blank padded ( 0-31)'), ('%h', calendar.month_abbr[now[1]], 'abbreviated month name'), ('%k', '%2d' % now[3], 'hour, blank padded ( 0-23)'), ('%n', '\n', 'newline character'), ('%r', '%02d:%02d:%02d %s' % (clock12, now[4], now[5], ampm), '%I:%M:%S %p'), ('%R', '%02d:%02d' % (now[3], now[4]), '%H:%M'), ('%s', nowsecs, 'seconds since the Epoch in UCT'), ('%t', '\t', 'tab character'), ('%T', '%02d:%02d:%02d' % (now[3], now[4], now[5]), '%H:%M:%S'), ('%3y', '%03d' % (now[0]%100), 'year without century rendered using fieldwidth'), ) if verbose: print "Strftime test, platform: %s, Python version: %s" % \ (sys.platform, string.split(sys.version)[0]) for e in expectations: try: result = time.strftime(e[0], now) except ValueError, error: print "Standard '%s' format gave error:" % e[0], error continue if re.match(e[1], result): continue if result[0] == '%': print "Does not support standard '%s' format (%s)" % (e[0], e[2]) else: print "Conflict for %s (%s):" % (e[0], e[2]) print " Expected %s, but got %s" % (e[1], result) for e in nonstandard_expectations: try: result = time.strftime(e[0], now) except ValueError, result: if verbose: print "Error for nonstandard '%s' format (%s): %s" % \ (e[0], e[2], str(result)) continue if result == e[1]: if verbose: print "Supports nonstandard '%s' format (%s)" % (e[0], e[2]) elif result[0] == '%': if verbose: print "Does not appear to support '%s' format (%s)" % (e[0], e[2]) else: if verbose: print "Conflict for nonstandard '%s' format (%s):" % (e[0], e[2]) print " Expected %s, but got %s" % (e[1], result)
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def strftest(now): if verbose: print "strftime test for", time.ctime(now) nowsecs = str(long(now))[:-1] gmt = time.gmtime(now) now = time.localtime(now) if now[3] < 12: ampm='AM' else: ampm='PM' jan1 = time.localtime(time.mktime((now[0], 1, 1) + (0,)*6)) try: if now[8]: tz = time.tzname[1] else: tz = time.tzname[0] except AttributeError: tz = '' if now[3] > 12: clock12 = now[3] - 12 elif now[3] > 0: clock12 = now[3] else: clock12 = 12 expectations = ( ('%a', calendar.day_abbr[now[6]], 'abbreviated weekday name'), ('%A', calendar.day_name[now[6]], 'full weekday name'), ('%b', calendar.month_abbr[now[1]], 'abbreviated month name'), ('%B', calendar.month_name[now[1]], 'full month name'), # %c see below ('%d', '%02d' % now[2], 'day of month as number (00-31)'), ('%H', '%02d' % now[3], 'hour (00-23)'), ('%I', '%02d' % clock12, 'hour (01-12)'), ('%j', '%03d' % now[7], 'julian day (001-366)'), ('%m', '%02d' % now[1], 'month as number (01-12)'), ('%M', '%02d' % now[4], 'minute, (00-59)'), ('%p', ampm, 'AM or PM as appropriate'), ('%S', '%02d' % now[5], 'seconds of current time (00-60)'), ('%U', '%02d' % ((now[7] + jan1[6])/7), 'week number of the year (Sun 1st)'), ('%w', '%d' % ((1+now[6]) % 7), 'weekday as a number (Sun 1st)'), ('%W', '%02d' % ((now[7] + (jan1[6] - 1)%7)/7), 'week number of the year (Mon 1st)'), # %x see below ('%X', '%02d:%02d:%02d' % (now[3], now[4], now[5]), '%H:%M:%S'), ('%y', '%02d' % (now[0]%100), 'year without century'), ('%Y', '%d' % now[0], 'year with century'), # %Z see below ('%%', '%', 'single percent sign'), ) nonstandard_expectations = ( # These are standard but don't have predictable output ('%c', fixasctime(time.asctime(now)), 'near-asctime() format'), ('%x', '%02d/%02d/%02d' % (now[1], now[2], (now[0]%100)), '%m/%d/%y %H:%M:%S'), ('(%Z)', '(%s)' % tz, 'time zone name'), # These are some platform specific extensions ('%D', '%02d/%02d/%02d' % (now[1], now[2], (now[0]%100)), 'mm/dd/yy'), ('%e', '%2d' % now[2], 'day of month as number, blank padded ( 0-31)'), ('%h', calendar.month_abbr[now[1]], 'abbreviated month name'), ('%k', '%2d' % now[3], 'hour, blank padded ( 0-23)'), ('%n', '\n', 'newline character'), ('%r', '%02d:%02d:%02d %s' % (clock12, now[4], now[5], ampm), '%I:%M:%S %p'), ('%R', '%02d:%02d' % (now[3], now[4]), '%H:%M'), ('%s', nowsecs, 'seconds since the Epoch in UCT'), ('%t', '\t', 'tab character'), ('%T', '%02d:%02d:%02d' % (now[3], now[4], now[5]), '%H:%M:%S'), ('%3y', '%03d' % (now[0]%100), 'year without century rendered using fieldwidth'), ) if verbose: print "Strftime test, platform: %s, Python version: %s" % \ (sys.platform, string.split(sys.version)[0]) for e in expectations: try: result = time.strftime(e[0], now) except ValueError, error: print "Standard '%s' format gave error:" % e[0], error continue if result == e[1]: continue if result[0] == '%': print "Does not support standard '%s' format (%s)" % (e[0], e[2]) else: print "Conflict for %s (%s):" % (e[0], e[2]) print " Expected %s, but got %s" % (e[1], result) for e in nonstandard_expectations: try: result = time.strftime(e[0], now) except ValueError, result: if verbose: print "Error for nonstandard '%s' format (%s): %s" % \ (e[0], e[2], str(result)) continue if result == e[1]: if verbose: print "Supports nonstandard '%s' format (%s)" % (e[0], e[2]) elif result[0] == '%': if verbose: print "Does not appear to support '%s' format (%s)" % (e[0], e[2]) else: if verbose: print "Conflict for nonstandard '%s' format (%s):" % (e[0], e[2]) print " Expected %s, but got %s" % (e[1], result)
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def strftest(now): if verbose: print "strftime test for", time.ctime(now) nowsecs = str(long(now))[:-1] gmt = time.gmtime(now) now = time.localtime(now) if now[3] < 12: ampm='AM' else: ampm='PM' jan1 = time.localtime(time.mktime((now[0], 1, 1) + (0,)*6)) try: if now[8]: tz = time.tzname[1] else: tz = time.tzname[0] except AttributeError: tz = '' if now[3] > 12: clock12 = now[3] - 12 elif now[3] > 0: clock12 = now[3] else: clock12 = 12 expectations = ( ('%a', calendar.day_abbr[now[6]], 'abbreviated weekday name'), ('%A', calendar.day_name[now[6]], 'full weekday name'), ('%b', calendar.month_abbr[now[1]], 'abbreviated month name'), ('%B', calendar.month_name[now[1]], 'full month name'), # %c see below ('%d', '%02d' % now[2], 'day of month as number (00-31)'), ('%H', '%02d' % now[3], 'hour (00-23)'), ('%I', '%02d' % clock12, 'hour (01-12)'), ('%j', '%03d' % now[7], 'julian day (001-366)'), ('%m', '%02d' % now[1], 'month as number (01-12)'), ('%M', '%02d' % now[4], 'minute, (00-59)'), ('%p', ampm, 'AM or PM as appropriate'), ('%S', '%02d' % now[5], 'seconds of current time (00-60)'), ('%U', '%02d' % ((now[7] + jan1[6])/7), 'week number of the year (Sun 1st)'), ('%w', '%d' % ((1+now[6]) % 7), 'weekday as a number (Sun 1st)'), ('%W', '%02d' % ((now[7] + (jan1[6] - 1)%7)/7), 'week number of the year (Mon 1st)'), # %x see below ('%X', '%02d:%02d:%02d' % (now[3], now[4], now[5]), '%H:%M:%S'), ('%y', '%02d' % (now[0]%100), 'year without century'), ('%Y', '%d' % now[0], 'year with century'), # %Z see below ('%%', '%', 'single percent sign'), ) nonstandard_expectations = ( # These are standard but don't have predictable output ('%c', fixasctime(time.asctime(now)), 'near-asctime() format'), ('%x', '%02d/%02d/%02d' % (now[1], now[2], (now[0]%100)), '%m/%d/%y %H:%M:%S'), ('(%Z)', '(%s)' % tz, 'time zone name'), # These are some platform specific extensions ('%D', '%02d/%02d/%02d' % (now[1], now[2], (now[0]%100)), 'mm/dd/yy'), ('%e', '%2d' % now[2], 'day of month as number, blank padded ( 0-31)'), ('%h', calendar.month_abbr[now[1]], 'abbreviated month name'), ('%k', '%2d' % now[3], 'hour, blank padded ( 0-23)'), ('%n', '\n', 'newline character'), ('%r', '%02d:%02d:%02d %s' % (clock12, now[4], now[5], ampm), '%I:%M:%S %p'), ('%R', '%02d:%02d' % (now[3], now[4]), '%H:%M'), ('%s', nowsecs, 'seconds since the Epoch in UCT'), ('%t', '\t', 'tab character'), ('%T', '%02d:%02d:%02d' % (now[3], now[4], now[5]), '%H:%M:%S'), ('%3y', '%03d' % (now[0]%100), 'year without century rendered using fieldwidth'), ) if verbose: print "Strftime test, platform: %s, Python version: %s" % \ (sys.platform, string.split(sys.version)[0]) for e in expectations: try: result = time.strftime(e[0], now) except ValueError, error: print "Standard '%s' format gave error:" % e[0], error continue if re.match(e[1], result): continue if result[0] == '%': print "Does not support standard '%s' format (%s)" % (e[0], e[2]) else: print "Conflict for %s (%s):" % (e[0], e[2]) print " Expected %s, but got %s" % (e[1], result) for e in nonstandard_expectations: try: result = time.strftime(e[0], now) except ValueError, result: if verbose: print "Error for nonstandard '%s' format (%s): %s" % \ (e[0], e[2], str(result)) continue if re.match(e[1], result): if verbose: print "Supports nonstandard '%s' format (%s)" % (e[0], e[2]) elif result[0] == '%': if verbose: print "Does not appear to support '%s' format (%s)" % (e[0], e[2]) else: if verbose: print "Conflict for nonstandard '%s' format (%s):" % (e[0], e[2]) print " Expected %s, but got %s" % (e[1], result)
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def __init__(self, flist=None, filename=None, key=None, root=None): if EditorWindow.help_url is None: dochome = os.path.join(sys.prefix, 'Doc', 'index.html') if sys.platform.count('linux'): # look for html docs in a couple of standard places pyver = 'python-docs-' + '%s.%s.%s' % sys.version_info[:3] if os.path.isdir('/var/www/html/python/'): # "python2" rpm dochome = '/var/www/html/python/index.html' else: basepath = '/usr/share/doc/' # standard location dochome = os.path.join(basepath, pyver, 'Doc', 'index.html') elif sys.platform[:3] == 'win': chmfile = os.path.join(sys.prefix, 'Doc', 'Python%d%d.chm' % sys.version_info[:2]) if os.path.isfile(chmfile): dochome = chmfile
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def __init__(self, flist=None, filename=None, key=None, root=None): if EditorWindow.help_url is None: dochome = os.path.join(sys.prefix, 'Doc', 'index.html') if sys.platform.count('linux'): # look for html docs in a couple of standard places pyver = 'python-docs-' + '%s.%s.%s' % sys.version_info[:3] if os.path.isdir('/var/www/html/python/'): # "python2" rpm dochome = '/var/www/html/python/index.html' else: basepath = '/usr/share/doc/' # standard location dochome = os.path.join(basepath, pyver, 'Doc', 'index.html') elif sys.platform[:3] == 'win': chmfile = os.path.join(sys.prefix, 'Doc', 'Python%d%d.chm' % sys.version_info[:2]) if os.path.isfile(chmfile): dochome = chmfile
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def urlparse(url, scheme = '', allow_fragments = 1): """Parse a URL into 6 components: <scheme>://<netloc>/<path>;<params>?<query>#<fragment> Return a 6-tuple: (scheme, netloc, path, params, query, fragment). Note that we don't break the components up in smaller bits (e.g. netloc is a single string) and we don't expand % escapes.""" key = url, scheme, allow_fragments cached = _parse_cache.get(key, None) if cached: return cached if len(_parse_cache) >= MAX_CACHE_SIZE: # avoid runaway growth clear_cache() netloc = params = query = fragment = '' i = url.find(':') if i > 0: if url[:i] == 'http': # optimize the common case scheme = url[:i].lower() url = url[i+1:] if url[:2] == '//': i = url.find('/', 2) if i < 0: i = len(url) netloc = url[2:i] url = url[i:] if allow_fragments: i = url.rfind('#') if i >= 0: fragment = url[i+1:] url = url[:i] i = url.find('?') if i >= 0: query = url[i+1:] url = url[:i] i = url.find(';') if i >= 0: params = url[i+1:] url = url[:i] tuple = scheme, netloc, url, params, query, fragment _parse_cache[key] = tuple return tuple for c in url[:i]: if c not in scheme_chars: break else: scheme, url = url[:i].lower(), url[i+1:] if scheme in uses_netloc: if url[:2] == '//': i = url.find('/', 2) if i < 0: i = len(url) netloc, url = url[2:i], url[i:] if allow_fragments and scheme in uses_fragment: i = url.rfind('#') if i >= 0: url, fragment = url[:i], url[i+1:] if scheme in uses_query: i = url.find('?') if i >= 0: url, query = url[:i], url[i+1:] if scheme in uses_params: i = url.find(';') if i >= 0: url, params = url[:i], url[i+1:] tuple = scheme, netloc, url, params, query, fragment _parse_cache[key] = tuple return tuple
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def urlparse(url, scheme='', allow_fragments=1): """Parse a URL into 6 components: <scheme>://<netloc>/<path>;<params>?<query>#<fragment> Return a 6-tuple: (scheme, netloc, path, params, query, fragment). Note that we don't break the components up in smaller bits (e.g. netloc is a single string) and we don't expand % escapes.""" key = url, scheme, allow_fragments cached = _parse_cache.get(key, None) if cached: return cached if len(_parse_cache) >= MAX_CACHE_SIZE: # avoid runaway growth clear_cache() netloc = params = query = fragment = '' i = url.find(':') if i > 0: if url[:i] == 'http': # optimize the common case scheme = url[:i].lower() url = url[i+1:] if url[:2] == '//': i = url.find('/', 2) if i < 0: i = len(url) netloc = url[2:i] url = url[i:] if allow_fragments: i = url.rfind('#') if i >= 0: fragment = url[i+1:] url = url[:i] i = url.find('?') if i >= 0: query = url[i+1:] url = url[:i] i = url.find(';') if i >= 0: params = url[i+1:] url = url[:i] tuple = scheme, netloc, url, params, query, fragment _parse_cache[key] = tuple return tuple for c in url[:i]: if c not in scheme_chars: break else: scheme, url = url[:i].lower(), url[i+1:] if scheme in uses_netloc: if url[:2] == '//': i = url.find('/', 2) if i < 0: i = len(url) netloc, url = url[2:i], url[i:] if allow_fragments and scheme in uses_fragment: i = url.rfind('#') if i >= 0: url, fragment = url[:i], url[i+1:] if scheme in uses_query: i = url.find('?') if i >= 0: url, query = url[:i], url[i+1:] if scheme in uses_params: i = url.find(';') if i >= 0: url, params = url[:i], url[i+1:] tuple = scheme, netloc, url, params, query, fragment _parse_cache[key] = tuple return tuple
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def urlparse(url, scheme = '', allow_fragments = 1): """Parse a URL into 6 components: <scheme>://<netloc>/<path>;<params>?<query>#<fragment> Return a 6-tuple: (scheme, netloc, path, params, query, fragment). Note that we don't break the components up in smaller bits (e.g. netloc is a single string) and we don't expand % escapes.""" key = url, scheme, allow_fragments cached = _parse_cache.get(key, None) if cached: return cached if len(_parse_cache) >= MAX_CACHE_SIZE: # avoid runaway growth clear_cache() netloc = params = query = fragment = '' i = url.find(':') if i > 0: if url[:i] == 'http': # optimize the common case scheme = url[:i].lower() url = url[i+1:] if url[:2] == '//': i = url.find('/', 2) if i < 0: i = len(url) netloc = url[2:i] url = url[i:] if allow_fragments: i = url.rfind('#') if i >= 0: fragment = url[i+1:] url = url[:i] i = url.find('?') if i >= 0: query = url[i+1:] url = url[:i] i = url.find(';') if i >= 0: params = url[i+1:] url = url[:i] tuple = scheme, netloc, url, params, query, fragment _parse_cache[key] = tuple return tuple for c in url[:i]: if c not in scheme_chars: break else: scheme, url = url[:i].lower(), url[i+1:] if scheme in uses_netloc: if url[:2] == '//': i = url.find('/', 2) if i < 0: i = len(url) netloc, url = url[2:i], url[i:] if allow_fragments and scheme in uses_fragment: i = url.rfind('#') if i >= 0: url, fragment = url[:i], url[i+1:] if scheme in uses_query: i = url.find('?') if i >= 0: url, query = url[:i], url[i+1:] if scheme in uses_params: i = url.find(';') if i >= 0: url, params = url[:i], url[i+1:] tuple = scheme, netloc, url, params, query, fragment _parse_cache[key] = tuple return tuple
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def urlparse(url, scheme = '', allow_fragments = 1): """Parse a URL into 6 components: <scheme>://<netloc>/<path>;<params>?<query>#<fragment> Return a 6-tuple: (scheme, netloc, path, params, query, fragment). Note that we don't break the components up in smaller bits (e.g. netloc is a single string) and we don't expand % escapes.""" key = url, scheme, allow_fragments cached = _parse_cache.get(key, None) if cached: return cached if len(_parse_cache) >= MAX_CACHE_SIZE: # avoid runaway growth clear_cache() netloc = query = fragment = '' i = url.find(':') if i > 0: if url[:i] == 'http': # optimize the common case scheme = url[:i].lower() url = url[i+1:] if url[:2] == '//': i = url.find('/', 2) if i < 0: i = len(url) netloc = url[2:i] url = url[i:] if allow_fragments: i = url.rfind('#') if i >= 0: fragment = url[i+1:] url = url[:i] i = url.find('?') if i >= 0: query = url[i+1:] url = url[:i] i = url.find(';') if i >= 0: params = url[i+1:] url = url[:i] tuple = scheme, netloc, url, params, query, fragment _parse_cache[key] = tuple return tuple for c in url[:i]: if c not in scheme_chars: break else: scheme, url = url[:i].lower(), url[i+1:] if scheme in uses_netloc: if url[:2] == '//': i = url.find('/', 2) if i < 0: i = len(url) netloc, url = url[2:i], url[i:] if allow_fragments and scheme in uses_fragment: i = url.rfind('#') if i >= 0: url, fragment = url[:i], url[i+1:] if scheme in uses_query: i = url.find('?') if i >= 0: url, query = url[:i], url[i+1:] if scheme in uses_params: i = url.find(';') if i >= 0: url, params = url[:i], url[i+1:] tuple = scheme, netloc, url, params, query, fragment _parse_cache[key] = tuple return tuple
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def urlparse(url, scheme = '', allow_fragments = 1): """Parse a URL into 6 components: <scheme>://<netloc>/<path>;<params>?<query>#<fragment> Return a 6-tuple: (scheme, netloc, path, params, query, fragment). Note that we don't break the components up in smaller bits (e.g. netloc is a single string) and we don't expand % escapes.""" key = url, scheme, allow_fragments cached = _parse_cache.get(key, None) if cached: return cached if len(_parse_cache) >= MAX_CACHE_SIZE: # avoid runaway growth clear_cache() netloc = params = query = fragment = '' i = url.find(':') if i > 0: if url[:i] == 'http': # optimize the common case scheme = url[:i].lower() url = url[i+1:] if url[:2] == '//': i = url.find('/', 2) if i < 0: i = len(url) netloc = url[2:i] url = url[i:] if allow_fragments: i = url.rfind('#') if i >= 0: fragment = url[i+1:] url = url[:i] i = url.find('?') if i >= 0: query = url[i+1:] url = url[:i] i = url.find(';') if i >= 0: params = url[i+1:] url = url[:i] tuple = scheme, netloc, url, params, query, fragment _parse_cache[key] = tuple return tuple for c in url[:i]: if c not in scheme_chars: break else: scheme, url = url[:i].lower(), url[i+1:] if scheme in uses_netloc: if url[:2] == '//': i = url.find('/', 2) if i < 0: i = len(url) netloc, url = url[2:i], url[i:] if allow_fragments and scheme in uses_fragment: i = url.rfind('#') if i >= 0: url, fragment = url[:i], url[i+1:] if scheme in uses_query: i = url.find('?') if i >= 0: url, query = url[:i], url[i+1:] if scheme in uses_params: i = url.find(';') if i >= 0: url, params = url[:i], url[i+1:] tuple = scheme, netloc, url, params, query, fragment _parse_cache[key] = tuple return tuple
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def urlparse(url, scheme = '', allow_fragments = 1): """Parse a URL into 6 components: <scheme>://<netloc>/<path>;<params>?<query>#<fragment> Return a 6-tuple: (scheme, netloc, path, params, query, fragment). Note that we don't break the components up in smaller bits (e.g. netloc is a single string) and we don't expand % escapes.""" key = url, scheme, allow_fragments cached = _parse_cache.get(key, None) if cached: return cached if len(_parse_cache) >= MAX_CACHE_SIZE: # avoid runaway growth clear_cache() netloc = params = query = fragment = '' i = url.find(':') if i > 0: if url[:i] == 'http': # optimize the common case scheme = url[:i].lower() url = url[i+1:] if url[:2] == '//': i = url.find('/', 2) if i < 0: i = len(url) netloc = url[2:i] url = url[i:] if allow_fragments: i = url.rfind('#') if i >= 0: fragment = url[i+1:] url = url[:i] i = url.find('?') if i >= 0: query = url[i+1:] url = url[:i] i = url.find(';') if i >= 0: params = url[i+1:] url = url[:i] tuple = scheme, netloc, url, params, query, fragment _parse_cache[key] = tuple return tuple for c in url[:i]: if c not in scheme_chars: break else: scheme, url = url[:i].lower(), url[i+1:] if scheme in uses_netloc: if url[:2] == '//': i = url.find('/', 2) if i < 0: i = len(url) netloc, url = url[2:i], url[i:] if allow_fragments and scheme in uses_fragment: i = url.rfind('#') if i >= 0: url, fragment = url[:i], url[i+1:] if scheme in uses_query: i = url.find('?') if i >= 0: url, query = url[:i], url[i+1:] if scheme in uses_params: i = url.find(';') if i >= 0: url, params = url[:i], url[i+1:] tuple = scheme, netloc, url, params, query, fragment _parse_cache[key] = tuple return tuple
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def urlparse(url, scheme = '', allow_fragments = 1): """Parse a URL into 6 components: <scheme>://<netloc>/<path>;<params>?<query>#<fragment> Return a 6-tuple: (scheme, netloc, path, params, query, fragment). Note that we don't break the components up in smaller bits (e.g. netloc is a single string) and we don't expand % escapes.""" key = url, scheme, allow_fragments cached = _parse_cache.get(key, None) if cached: return cached if len(_parse_cache) >= MAX_CACHE_SIZE: # avoid runaway growth clear_cache() netloc = params = query = fragment = '' i = url.find(':') if i > 0: if url[:i] == 'http': # optimize the common case scheme = url[:i].lower() url = url[i+1:] if url[:2] == '//': i = url.find('/', 2) if i < 0: i = len(url) netloc = url[2:i] url = url[i:] if allow_fragments: i = url.rfind('#') if i >= 0: fragment = url[i+1:] url = url[:i] i = url.find('?') if i >= 0: query = url[i+1:] url = url[:i] i = url.find(';') if i >= 0: params = url[i+1:] url = url[:i] tuple = scheme, netloc, url, params, query, fragment _parse_cache[key] = tuple return tuple for c in url[:i]: if c not in scheme_chars: break else: scheme, url = url[:i].lower(), url[i+1:] if scheme in uses_netloc: if url[:2] == '//': i = url.find('/', 2) if i < 0: i = len(url) netloc, url = url[2:i], url[i:] if allow_fragments and scheme in uses_fragment: i = url.rfind('#') if i >= 0: url, fragment = url[:i], url[i+1:] if scheme in uses_query: i = url.find('?') if i >= 0: url, query = url[:i], url[i+1:] if scheme in uses_params: i = url.find(';') if i >= 0: url, params = url[:i], url[i+1:] tuple = scheme, netloc, url, params, query, fragment _parse_cache[key] = tuple return tuple
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def urlparse(url, scheme = '', allow_fragments = 1): """Parse a URL into 6 components: <scheme>://<netloc>/<path>;<params>?<query>#<fragment> Return a 6-tuple: (scheme, netloc, path, params, query, fragment). Note that we don't break the components up in smaller bits (e.g. netloc is a single string) and we don't expand % escapes.""" key = url, scheme, allow_fragments cached = _parse_cache.get(key, None) if cached: return cached if len(_parse_cache) >= MAX_CACHE_SIZE: # avoid runaway growth clear_cache() netloc = params = query = fragment = '' i = url.find(':') if i > 0: if url[:i] == 'http': # optimize the common case scheme = url[:i].lower() url = url[i+1:] if url[:2] == '//': i = url.find('/', 2) if i < 0: i = len(url) netloc = url[2:i] url = url[i:] if allow_fragments: i = url.rfind('#') if i >= 0: fragment = url[i+1:] url = url[:i] i = url.find('?') if i >= 0: query = url[i+1:] url = url[:i] i = url.find(';') if i >= 0: params = url[i+1:] url = url[:i] tuple = scheme, netloc, url, params, query, fragment _parse_cache[key] = tuple return tuple for c in url[:i]: if c not in scheme_chars: break else: scheme, url = url[:i].lower(), url[i+1:] if scheme in uses_netloc: if url[:2] == '//': i = url.find('/', 2) if i < 0: i = len(url) netloc, url = url[2:i], url[i:] if allow_fragments and scheme in uses_fragment: i = url.rfind('#') if i >= 0: url, fragment = url[:i], url[i+1:] if scheme in uses_query: i = url.find('?') if i >= 0: url, query = url[:i], url[i+1:] if scheme in uses_params: i = url.find(';') if i >= 0: url, params = url[:i], url[i+1:] tuple = scheme, netloc, url, params, query, fragment _parse_cache[key] = tuple return tuple
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def urlunparse((scheme, netloc, url, params, query, fragment)): """Put a parsed URL back together again. This may result in a slightly different, but equivalent URL, if the URL that was parsed originally had redundant delimiters, e.g. a ? with an empty query (the draft states that these are equivalent).""" if netloc or (scheme in uses_netloc and url[:2] == '//'): if url and url[:1] != '/': url = '/' + url url = '//' + (netloc or '') + url if scheme: url = scheme + ':' + url if params: url = url + ';' + params if query: url = url + '?' + query if fragment: url = url + '#' + fragment return url
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def urlunparse((scheme, netloc, url, params, query, fragment)): """Put a parsed URL back together again. This may result in a slightly different, but equivalent URL, if the URL that was parsed originally had redundant delimiters, e.g. a ? with an empty query (the draft states that these are equivalent).""" if netloc or (scheme in uses_netloc and url[:2] == '//'): if url and url[:1] != '/': url = '/' + url url = '//' + (netloc or '') + url if scheme: url = scheme + ':' + url if query: url = url + '?' + query if fragment: url = url + '#' + fragment return url
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def urldefrag(url): """Removes any existing fragment from URL. Returns a tuple of the defragmented URL and the fragment. If the URL contained no fragments, the second element is the empty string. """ s, n, p, a, q, frag = urlparse(url) defrag = urlunparse((s, n, p, a, q, '')) return defrag, frag
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def urldefrag(url): """Removes any existing fragment from URL. Returns a tuple of the defragmented URL and the fragment. If the URL contained no fragments, the second element is the empty string. """ if ' s, n, p, a, q, frag = urlparse(url) defrag = urlunparse((s, n, p, a, q, '')) return defrag, frag else: return url, ''
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def f5((compound, first), two): pass
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def f5((compound, first), two): pass
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def v3(a, (b, c), *rest): return a, b, c, rest
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def v3(a, (b, c), *rest): return a, b, c, rest
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def seek(self, pos, mode = 0): """Seek to specified position into the chunk. Default position is 0 (start of chunk). If the file is not seekable, this will result in an error.
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def seek(self, pos, whence = 0): """Seek to specified position into the chunk. Default position is 0 (start of chunk). If the file is not seekable, this will result in an error.
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def seek(self, pos, mode = 0): """Seek to specified position into the chunk. Default position is 0 (start of chunk). If the file is not seekable, this will result in an error.
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def seek(self, pos, mode = 0): """Seek to specified position into the chunk. Default position is 0 (start of chunk). If the file is not seekable, this will result in an error.
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def seek(self, pos, mode = 0): """Seek to specified position into the chunk. Default position is 0 (start of chunk). If the file is not seekable, this will result in an error.
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def seek(self, pos, mode = 0): """Seek to specified position into the chunk. Default position is 0 (start of chunk). If the file is not seekable, this will result in an error.
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def read(self, n = -1): """Read at most n bytes from the chunk. If n is omitted or negative, read until the end of the chunk.
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def read(self, size = -1): """Read at most size bytes from the chunk. If size is omitted or negative, read until the end of the chunk.
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def read(self, n = -1): """Read at most n bytes from the chunk. If n is omitted or negative, read until the end of the chunk.
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def read(self, n = -1): """Read at most n bytes from the chunk. If n is omitted or negative, read until the end of the chunk.
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def error(self, exception):
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def error(self, exception):
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def fatalError(self, exception):
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def fatalError(self, exception):
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def warning(self, exception):
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def warning(self, exception):
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def detect_modules(self): # Ensure that /usr/local is always used add_dir_to_list(self.compiler.library_dirs, '/usr/local/lib') add_dir_to_list(self.compiler.include_dirs, '/usr/local/include')
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def detect_modules(self): # Ensure that /usr/local is always used add_dir_to_list(self.compiler.library_dirs, '/usr/local/lib') add_dir_to_list(self.compiler.include_dirs, '/usr/local/include')
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def detect_modules(self): # Ensure that /usr/local is always used add_dir_to_list(self.compiler.library_dirs, '/usr/local/lib') add_dir_to_list(self.compiler.include_dirs, '/usr/local/include')
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def detect_modules(self): # Ensure that /usr/local is always used add_dir_to_list(self.compiler.library_dirs, '/usr/local/lib') add_dir_to_list(self.compiler.include_dirs, '/usr/local/include')
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def detect_modules(self): # Ensure that /usr/local is always used add_dir_to_list(self.compiler.library_dirs, '/usr/local/lib') add_dir_to_list(self.compiler.include_dirs, '/usr/local/include')
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def detect_modules(self): # Ensure that /usr/local is always used add_dir_to_list(self.compiler.library_dirs, '/usr/local/lib') add_dir_to_list(self.compiler.include_dirs, '/usr/local/include')
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def detect_modules(self): # Ensure that /usr/local is always used add_dir_to_list(self.compiler.library_dirs, '/usr/local/lib') add_dir_to_list(self.compiler.include_dirs, '/usr/local/include')
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def detect_modules(self): # Ensure that /usr/local is always used add_dir_to_list(self.compiler.library_dirs, '/usr/local/lib') add_dir_to_list(self.compiler.include_dirs, '/usr/local/include')
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def detect_modules(self): # Ensure that /usr/local is always used add_dir_to_list(self.compiler.library_dirs, '/usr/local/lib') add_dir_to_list(self.compiler.include_dirs, '/usr/local/include')
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def detect_modules(self): # Ensure that /usr/local is always used add_dir_to_list(self.compiler.library_dirs, '/usr/local/lib') add_dir_to_list(self.compiler.include_dirs, '/usr/local/include')
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def detect_modules(self): # Ensure that /usr/local is always used add_dir_to_list(self.compiler.library_dirs, '/usr/local/lib') add_dir_to_list(self.compiler.include_dirs, '/usr/local/include')
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def detect_modules(self): # Ensure that /usr/local is always used add_dir_to_list(self.compiler.library_dirs, '/usr/local/lib') add_dir_to_list(self.compiler.include_dirs, '/usr/local/include')
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def detect_modules(self): # Ensure that /usr/local is always used add_dir_to_list(self.compiler.library_dirs, '/usr/local/lib') add_dir_to_list(self.compiler.include_dirs, '/usr/local/include')
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def detect_modules(self): # Ensure that /usr/local is always used add_dir_to_list(self.compiler.library_dirs, '/usr/local/lib') add_dir_to_list(self.compiler.include_dirs, '/usr/local/include')
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def detect_modules(self): # Ensure that /usr/local is always used add_dir_to_list(self.compiler.library_dirs, '/usr/local/lib') add_dir_to_list(self.compiler.include_dirs, '/usr/local/include')
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def detect_modules(self): # Ensure that /usr/local is always used add_dir_to_list(self.compiler.library_dirs, '/usr/local/lib') add_dir_to_list(self.compiler.include_dirs, '/usr/local/include')
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def _set_hostport(self, host, port): if port is None: i = host.find(':') if i >= 0: try: port = int(host[i+1:]) except ValueError, msg: raise socket.error, str(msg) host = host[:i] else: port = self.default_port self.host = host self.port = port
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def _set_hostport(self, host, port): if port is None: i = host.find(':') if i >= 0: port = int(host[i+1:]) host = host[:i] else: port = self.default_port self.host = host self.port = port
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def detect_modules(self): # Ensure that /usr/local is always used add_dir_to_list(self.compiler.library_dirs, '/usr/local/lib') add_dir_to_list(self.compiler.include_dirs, '/usr/local/include')
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def detect_modules(self): # Ensure that /usr/local is always used add_dir_to_list(self.compiler.library_dirs, '/usr/local/lib') add_dir_to_list(self.compiler.include_dirs, '/usr/local/include')
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def check_split(self, wrapper, text, expect): result = wrapper._split(text) self.assertEquals(result, expect, "\nexpected %r\n" "but got %r" % (expect, result))
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def check_split(self, text, expect): result = self.wrapper._split(text) self.assertEquals(result, expect, "\nexpected %r\n" "but got %r" % (expect, result))
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def test_em_dash(self): # Test text with em-dashes text = "Em-dashes should be written -- thus." self.check_wrap(text, 25, ["Em-dashes should be", "written -- thus."])
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def test_em_dash(self): # Test text with em-dashes text = "Em-dashes should be written -- thus." self.check_wrap(text, 25, ["Em-dashes should be", "written -- thus."])
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def test_em_dash(self): # Test text with em-dashes text = "Em-dashes should be written -- thus." self.check_wrap(text, 25, ["Em-dashes should be", "written -- thus."])
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def test_em_dash(self): # Test text with em-dashes text = "Em-dashes should be written -- thus." self.check_wrap(text, 25, ["Em-dashes should be", "written -- thus."])
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def test_unix_options (self): # Test that Unix-style command-line options are wrapped correctly. # Both Optik (OptionParser) and Docutils rely on this behaviour!
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def test_unix_options (self): # Test that Unix-style command-line options are wrapped correctly. # Both Optik (OptionParser) and Docutils rely on this behaviour!
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def make_entry(self, label, var): l = Label(self.top, text=label) l.grid(row=self.row, col=0, sticky="w") e = Entry(self.top, textvariable=var, exportselection=0) e.grid(row=self.row, col=1, sticky="we") self.row = self.row + 1 return e
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def make_entry(self, label, var): l = Label(self.top, text=label) l.grid(row=self.row, column=0, sticky="w") e = Entry(self.top, textvariable=var, exportselection=0) e.grid(row=self.row, col=1, sticky="we") self.row = self.row + 1 return e
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def make_entry(self, label, var): l = Label(self.top, text=label) l.grid(row=self.row, col=0, sticky="w") e = Entry(self.top, textvariable=var, exportselection=0) e.grid(row=self.row, col=1, sticky="we") self.row = self.row + 1 return e
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def make_entry(self, label, var): l = Label(self.top, text=label) l.grid(row=self.row, col=0, sticky="w") e = Entry(self.top, textvariable=var, exportselection=0) e.grid(row=self.row, column=1, sticky="we") self.row = self.row + 1 return e
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def make_frame(self): f = Frame(self.top) f.grid(row=self.row, col=0, columnspan=2, sticky="we") self.row = self.row + 1 return f
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def make_frame(self): f = Frame(self.top) f.grid(row=self.row, column=0, columnspan=2, sticky="we") self.row = self.row + 1 return f
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def write_toc_entry(entry, fp, layer): stype, snum, title, pageno, toc = entry s = "\\pdfoutline goto name{page.%dx}" % pageno if toc: s = "%s count -%d" % (s, len(toc)) if snum: title = "%s %s" % (snum, title) s = "%s {%s}\n" % (s, title) fp.write(s) for entry in toc: write_toc_entry(entry, fp, layer + 1)
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def write_toc_entry(entry, fp, layer): stype, snum, title, pageno, toc = entry s = "\\pdfoutline goto name{page%03d}" % pageno if toc: s = "%s count -%d" % (s, len(toc)) if snum: title = "%s %s" % (snum, title) s = "%s {%s}\n" % (s, title) fp.write(s) for entry in toc: write_toc_entry(entry, fp, layer + 1)
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def __init__(self): MiniApplication.__init__(self) AEServer.__init__(self) self.installaehandler('aevt', 'oapp', self.open_app) self.installaehandler('aevt', 'quit', self.quit) self.installaehandler('aevt', '****', self.other) self.mainloop()
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def __init__(self): MiniApplication.__init__(self) AEServer.__init__(self) self.installaehandler('aevt', 'oapp', self.open_app) self.installaehandler('aevt', 'quit', self.quit) self.installaehandler('****', '****', self.other) self.mainloop()
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def parse(filename_or_stream, handler, errorHandler=ErrorHandler()): parser = ExpatParser() parser.setContentHandler(handler) parser.setErrorHandler(errorHandler) parser.parse(filename_or_stream)
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defparse(filename_or_stream,handler,errorHandler=ErrorHandler()):parser=ExpatParser()parser.setContentHandler(handler)parser.setErrorHandler(errorHandler)parser.parse(filename_or_stream)
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def open_https(self, url, data=None): """Use HTTPS protocol.""" import httplib if type(url) is type(""): host, selector = splithost(url) user_passwd, host = splituser(host) else: host, selector = url urltype, rest = splittype(selector) if string.lower(urltype) == 'https': realhost, rest = splithost(rest) user_passwd, realhost = splituser(realhost) if user_passwd: selector = "%s://%s%s" % (urltype, realhost, rest) #print "proxy via https:", host, selector if not host: raise IOError, ('https error', 'no host given') if user_passwd: import base64 auth = string.strip(base64.encodestring(user_passwd)) else: auth = None h = httplib.HTTPS(host, 0, key_file=self.key_file, cert_file=self.cert_file) if data is not None: h.putrequest('POST', selector) h.putheader('Content-type', 'application/x-www-form-urlencoded') h.putheader('Content-length', '%d' % len(data)) else: h.putrequest('GET', selector) if auth: h.putheader('Authorization: Basic %s' % auth) for args in self.addheaders: apply(h.putheader, args) h.endheaders() if data is not None: h.send(data + '\r\n') errcode, errmsg, headers = h.getreply() fp = h.getfile() if errcode == 200: return addinfourl(fp, headers, url) else: return self.http_error(url, fp, errcode, errmsg, headers)
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def open_https(self, url, data=None): """Use HTTPS protocol.""" import httplib if type(url) is type(""): host, selector = splithost(url) if host: user_passwd, host = splituser(host) host = unquote(host) realhost = host else: host, selector = url urltype, rest = splittype(selector) if string.lower(urltype) == 'https': realhost, rest = splithost(rest) user_passwd, realhost = splituser(realhost) if user_passwd: selector = "%s://%s%s" % (urltype, realhost, rest) #print "proxy via https:", host, selector if not host: raise IOError, ('https error', 'no host given') if user_passwd: import base64 auth = string.strip(base64.encodestring(user_passwd)) else: auth = None h = httplib.HTTPS(host, 0, key_file=self.key_file, cert_file=self.cert_file) if data is not None: h.putrequest('POST', selector) h.putheader('Content-type', 'application/x-www-form-urlencoded') h.putheader('Content-length', '%d' % len(data)) else: h.putrequest('GET', selector) if auth: h.putheader('Authorization: Basic %s' % auth) for args in self.addheaders: apply(h.putheader, args) h.endheaders() if data is not None: h.send(data + '\r\n') errcode, errmsg, headers = h.getreply() fp = h.getfile() if errcode == 200: return addinfourl(fp, headers, url) else: return self.http_error(url, fp, errcode, errmsg, headers)
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def open_https(self, url, data=None): """Use HTTPS protocol.""" import httplib if type(url) is type(""): host, selector = splithost(url) user_passwd, host = splituser(host) else: host, selector = url urltype, rest = splittype(selector) if string.lower(urltype) == 'https': realhost, rest = splithost(rest) user_passwd, realhost = splituser(realhost) if user_passwd: selector = "%s://%s%s" % (urltype, realhost, rest) #print "proxy via https:", host, selector if not host: raise IOError, ('https error', 'no host given') if user_passwd: import base64 auth = string.strip(base64.encodestring(user_passwd)) else: auth = None h = httplib.HTTPS(host, 0, key_file=self.key_file, cert_file=self.cert_file) if data is not None: h.putrequest('POST', selector) h.putheader('Content-type', 'application/x-www-form-urlencoded') h.putheader('Content-length', '%d' % len(data)) else: h.putrequest('GET', selector) if auth: h.putheader('Authorization: Basic %s' % auth) for args in self.addheaders: apply(h.putheader, args) h.endheaders() if data is not None: h.send(data + '\r\n') errcode, errmsg, headers = h.getreply() fp = h.getfile() if errcode == 200: return addinfourl(fp, headers, url) else: return self.http_error(url, fp, errcode, errmsg, headers)
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def open_https(self, url, data=None): """Use HTTPS protocol.""" import httplib if type(url) is type(""): host, selector = splithost(url) user_passwd, host = splituser(host) else: host, selector = url urltype, rest = splittype(selector) url = rest user_passwd = None if string.lower(urltype) != 'https': realhost = None else: realhost, rest = splithost(rest) user_passwd, realhost = splituser(realhost) if user_passwd: selector = "%s://%s%s" % (urltype, realhost, rest) #print "proxy via https:", host, selector if not host: raise IOError, ('https error', 'no host given') if user_passwd: import base64 auth = string.strip(base64.encodestring(user_passwd)) else: auth = None h = httplib.HTTPS(host, 0, key_file=self.key_file, cert_file=self.cert_file) if data is not None: h.putrequest('POST', selector) h.putheader('Content-type', 'application/x-www-form-urlencoded') h.putheader('Content-length', '%d' % len(data)) else: h.putrequest('GET', selector) if auth: h.putheader('Authorization: Basic %s' % auth) for args in self.addheaders: apply(h.putheader, args) h.endheaders() if data is not None: h.send(data + '\r\n') errcode, errmsg, headers = h.getreply() fp = h.getfile() if errcode == 200: return addinfourl(fp, headers, url) else: return self.http_error(url, fp, errcode, errmsg, headers)
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def open_https(self, url, data=None): """Use HTTPS protocol.""" import httplib if type(url) is type(""): host, selector = splithost(url) user_passwd, host = splituser(host) else: host, selector = url urltype, rest = splittype(selector) if string.lower(urltype) == 'https': realhost, rest = splithost(rest) user_passwd, realhost = splituser(realhost) if user_passwd: selector = "%s://%s%s" % (urltype, realhost, rest) #print "proxy via https:", host, selector if not host: raise IOError, ('https error', 'no host given') if user_passwd: import base64 auth = string.strip(base64.encodestring(user_passwd)) else: auth = None h = httplib.HTTPS(host, 0, key_file=self.key_file, cert_file=self.cert_file) if data is not None: h.putrequest('POST', selector) h.putheader('Content-type', 'application/x-www-form-urlencoded') h.putheader('Content-length', '%d' % len(data)) else: h.putrequest('GET', selector) if auth: h.putheader('Authorization: Basic %s' % auth) for args in self.addheaders: apply(h.putheader, args) h.endheaders() if data is not None: h.send(data + '\r\n') errcode, errmsg, headers = h.getreply() fp = h.getfile() if errcode == 200: return addinfourl(fp, headers, url) else: return self.http_error(url, fp, errcode, errmsg, headers)
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def open_https(self, url, data=None): """Use HTTPS protocol.""" import httplib if type(url) is type(""): host, selector = splithost(url) user_passwd, host = splituser(host) else: host, selector = url urltype, rest = splittype(selector) if string.lower(urltype) == 'https': realhost, rest = splithost(rest) if realhost: user_passwd, realhost = splituser(realhost) if user_passwd: selector = "%s://%s%s" % (urltype, realhost, rest) #print "proxy via https:", host, selector if not host: raise IOError, ('https error', 'no host given') if user_passwd: import base64 auth = string.strip(base64.encodestring(user_passwd)) else: auth = None h = httplib.HTTPS(host, 0, key_file=self.key_file, cert_file=self.cert_file) if data is not None: h.putrequest('POST', selector) h.putheader('Content-type', 'application/x-www-form-urlencoded') h.putheader('Content-length', '%d' % len(data)) else: h.putrequest('GET', selector) if auth: h.putheader('Authorization: Basic %s' % auth) for args in self.addheaders: apply(h.putheader, args) h.endheaders() if data is not None: h.send(data + '\r\n') errcode, errmsg, headers = h.getreply() fp = h.getfile() if errcode == 200: return addinfourl(fp, headers, url) else: return self.http_error(url, fp, errcode, errmsg, headers)
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def open_https(self, url, data=None): """Use HTTPS protocol.""" import httplib if type(url) is type(""): host, selector = splithost(url) user_passwd, host = splituser(host) else: host, selector = url urltype, rest = splittype(selector) if string.lower(urltype) == 'https': realhost, rest = splithost(rest) user_passwd, realhost = splituser(realhost) if user_passwd: selector = "%s://%s%s" % (urltype, realhost, rest) #print "proxy via https:", host, selector if not host: raise IOError, ('https error', 'no host given') if user_passwd: import base64 auth = string.strip(base64.encodestring(user_passwd)) else: auth = None h = httplib.HTTPS(host, 0, key_file=self.key_file, cert_file=self.cert_file) if data is not None: h.putrequest('POST', selector) h.putheader('Content-type', 'application/x-www-form-urlencoded') h.putheader('Content-length', '%d' % len(data)) else: h.putrequest('GET', selector) if auth: h.putheader('Authorization: Basic %s' % auth) for args in self.addheaders: apply(h.putheader, args) h.endheaders() if data is not None: h.send(data + '\r\n') errcode, errmsg, headers = h.getreply() fp = h.getfile() if errcode == 200: return addinfourl(fp, headers, url) else: return self.http_error(url, fp, errcode, errmsg, headers)
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def open_https(self, url, data=None): """Use HTTPS protocol.""" import httplib if type(url) is type(""): host, selector = splithost(url) user_passwd, host = splituser(host) else: host, selector = url urltype, rest = splittype(selector) if string.lower(urltype) == 'https': realhost, rest = splithost(rest) user_passwd, realhost = splituser(realhost) if user_passwd: selector = "%s://%s%s" % (urltype, realhost, rest) #print "proxy via https:", host, selector if not host: raise IOError, ('https error', 'no host given') if user_passwd: import base64 auth = string.strip(base64.encodestring(user_passwd)) else: auth = None h = httplib.HTTPS(host, 0, key_file=self.key_file, cert_file=self.cert_file) if data is not None: h.putrequest('POST', selector) h.putheader('Content-type', 'application/x-www-form-urlencoded') h.putheader('Content-length', '%d' % len(data)) else: h.putrequest('GET', selector) if auth: h.putheader('Authorization: Basic %s' % auth) for args in self.addheaders: apply(h.putheader, args) h.endheaders() if data is not None: h.send(data + '\r\n') errcode, errmsg, headers = h.getreply() fp = h.getfile() if errcode == 200: return addinfourl(fp, headers, url) else: return self.http_error(url, fp, errcode, errmsg, headers)
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def splituser(host): """splituser('user[:passwd]@host[:port]') --> 'user[:passwd]', 'host[:port]'.""" global _userprog if _userprog is None: import re _userprog = re.compile('^([^@]*)@(.*)$') match = _userprog.match(host) if match: return match.group(1, 2) return None, host
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def splituser(host): """splituser('user[:passwd]@host[:port]') --> 'user[:passwd]', 'host[:port]'.""" global _userprog if _userprog is None: import re _userprog = re.compile('^([^@]*)@(.*)$') match = _userprog.match(host) if match: return map(unquote, match.group(1, 2)) return None, host
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def _sync_flush(f): """Ensure changes to file f are physically on disk.""" f.flush() os.fsync(f.fileno())
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def _sync_flush(f): """Ensure changes to file f are physically on disk.""" f.flush() if hasattr(os, 'fsync'): os.fsync(f.fileno())
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def normalvariate(self, mu, sigma): """Normal distribution.
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def normalvariate(self, mu, sigma): """Normal distribution.
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def gammavariate(self, alpha, beta): """Gamma distribution. Not the gamma function!
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def gammavariate(self, alpha, beta): """Gamma distribution. Not the gamma function!
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def paretovariate(self, alpha): """Pareto distribution. alpha is the shape parameter.""" # Jain, pg. 495
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def paretovariate(self, alpha): """Pareto distribution. alpha is the shape parameter.""" # Jain, pg. 495
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def weibullvariate(self, alpha, beta): """Weibull distribution.
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def weibullvariate(self, alpha, beta): """Weibull distribution.
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def link_shared_object (self, objects, output_filename, output_dir=None, libraries=None, library_dirs=None, runtime_library_dirs=None, debug=0, extra_preargs=None, extra_postargs=None):
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def link_shared_object (self, objects, output_filename, output_dir=None, libraries=None, library_dirs=None, runtime_library_dirs=None, debug=0, extra_preargs=None, extra_postargs=None):
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def link_shared_object (self, objects, output_filename, output_dir=None, libraries=None, library_dirs=None, runtime_library_dirs=None, debug=0, extra_preargs=None, extra_postargs=None):
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def link_shared_object (self, objects, output_filename, output_dir=None, libraries=None, library_dirs=None, runtime_library_dirs=None, debug=0, extra_preargs=None, extra_postargs=None):
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def run(self): # remove the build/temp.<plat> directory (unless it's already # gone) if os.path.exists(self.build_temp): remove_tree(self.build_temp, dry_run=self.dry_run) else: log.warn("'%s' does not exist -- can't clean it", self.build_temp)
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def run(self): # remove the build/temp.<plat> directory (unless it's already # gone) if os.path.exists(self.build_temp): remove_tree(self.build_temp, dry_run=self.dry_run) else: log.warn("'%s' does not exist -- can't clean it", self.build_temp)
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def __init__(self, filename="NoName", date_time=(1980,1,1,0,0,0)): self.orig_filename = filename # Original file name in archive
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def __init__(self, filename="NoName", date_time=(1980,1,1,0,0,0)): self.orig_filename = filename # Original file name in archive
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def test01_join(self): if verbose: print '\n', '-=' * 30 print "Running %s.test01_join..." % \ self.__class__.__name__
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def test01_join(self): if verbose: print '\n', '-=' * 30 print "Running %s.test01_join..." % \ self.__class__.__name__
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def hexrepr(t): if t is None: return 'None' try: len(t) except: return '0x%04x' % t try: return '(' + ', '.join(map(lambda t: '0x%04x' % t, t)) + ')' except TypeError, why: print '* failed to convert %r: %s' % (t, why) raise
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def hexrepr(t, precision=4): if t is None: return 'None' try: len(t) except: return '0x%04x' % t try: return '(' + ', '.join(map(lambda t: '0x%04x' % t, t)) + ')' except TypeError, why: print '* failed to convert %r: %s' % (t, why) raise
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def hexrepr(t): if t is None: return 'None' try: len(t) except: return '0x%04x' % t try: return '(' + ', '.join(map(lambda t: '0x%04x' % t, t)) + ')' except TypeError, why: print '* failed to convert %r: %s' % (t, why) raise
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def hexrepr(t): if t is None: return 'None' try: len(t) except: return '0x%0*X' % (precision, t) try: return '(' + ', '.join(map(lambda t: '0x%04x' % t, t)) + ')' except TypeError, why: print '* failed to convert %r: %s' % (t, why) raise
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def hexrepr(t): if t is None: return 'None' try: len(t) except: return '0x%04x' % t try: return '(' + ', '.join(map(lambda t: '0x%04x' % t, t)) + ')' except TypeError, why: print '* failed to convert %r: %s' % (t, why) raise
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def hexrepr(t): if t is None: return 'None' try: len(t) except: return '0x%04x' % t try: return '(' + ', '.join(['0x%0*X' % (precision, item) for item in t]) + ')' except TypeError, why: print '* failed to convert %r: %s' % (t, why) raise
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def python_mapdef_code(varname, map, comments=1): l = [] append = l.append if map.has_key("IDENTITY"): append("%s = codecs.make_identity_dict(range(%d))" % (varname, map["IDENTITY"])) append("%s.update({" % varname) splits = 1 del map["IDENTITY"] identity = 1 else: append("%s = {" % varname) splits = 0 identity = 0 mappings = map.items() mappings.sort() i = 0 for mapkey, mapvalue in mappings: mapcomment = '' if isinstance(mapkey, tuple): (mapkey, mapcomment) = mapkey if isinstance(mapvalue, tuple): (mapvalue, mapcomment) = mapvalue if mapkey is None: continue if (identity and mapkey == mapvalue and mapkey < 256): # No need to include identity mappings, since these # are already set for the first 256 code points. continue key = hexrepr(mapkey) value = hexrepr(mapvalue) if mapcomment and comments: append(' %s: %s,\t# %s' % (key, value, mapcomment)) else: append(' %s: %s,' % (key, value)) i += 1 if i == 4096: # Split the definition into parts to that the Python # parser doesn't dump core if splits == 0: append('}') else: append('})') append('%s.update({' % varname) i = 0 splits = splits + 1 if splits == 0: append('}') else: append('})') return l
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def python_mapdef_code(varname, map, comments=1, precisions=(2, 4)): l = [] append = l.append if map.has_key("IDENTITY"): append("%s = codecs.make_identity_dict(range(%d))" % (varname, map["IDENTITY"])) append("%s.update({" % varname) splits = 1 del map["IDENTITY"] identity = 1 else: append("%s = {" % varname) splits = 0 identity = 0 mappings = map.items() mappings.sort() i = 0 for mapkey, mapvalue in mappings: mapcomment = '' if isinstance(mapkey, tuple): (mapkey, mapcomment) = mapkey if isinstance(mapvalue, tuple): (mapvalue, mapcomment) = mapvalue if mapkey is None: continue if (identity and mapkey == mapvalue and mapkey < 256): # No need to include identity mappings, since these # are already set for the first 256 code points. continue key = hexrepr(mapkey) value = hexrepr(mapvalue) if mapcomment and comments: append(' %s: %s,\t# %s' % (key, value, mapcomment)) else: append(' %s: %s,' % (key, value)) i += 1 if i == 4096: # Split the definition into parts to that the Python # parser doesn't dump core if splits == 0: append('}') else: append('})') append('%s.update({' % varname) i = 0 splits = splits + 1 if splits == 0: append('}') else: append('})') return l
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def python_mapdef_code(varname, map, comments=1): l = [] append = l.append if map.has_key("IDENTITY"): append("%s = codecs.make_identity_dict(range(%d))" % (varname, map["IDENTITY"])) append("%s.update({" % varname) splits = 1 del map["IDENTITY"] identity = 1 else: append("%s = {" % varname) splits = 0 identity = 0 mappings = map.items() mappings.sort() i = 0 for mapkey, mapvalue in mappings: mapcomment = '' if isinstance(mapkey, tuple): (mapkey, mapcomment) = mapkey if isinstance(mapvalue, tuple): (mapvalue, mapcomment) = mapvalue if mapkey is None: continue if (identity and mapkey == mapvalue and mapkey < 256): # No need to include identity mappings, since these # are already set for the first 256 code points. continue key = hexrepr(mapkey) value = hexrepr(mapvalue) if mapcomment and comments: append(' %s: %s,\t# %s' % (key, value, mapcomment)) else: append(' %s: %s,' % (key, value)) i += 1 if i == 4096: # Split the definition into parts to that the Python # parser doesn't dump core if splits == 0: append('}') else: append('})') append('%s.update({' % varname) i = 0 splits = splits + 1 if splits == 0: append('}') else: append('})') return l
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def python_mapdef_code(varname, map, comments=1): l = [] append = l.append if map.has_key("IDENTITY"): append("%s = codecs.make_identity_dict(range(%d))" % (varname, map["IDENTITY"])) append("%s.update({" % varname) splits = 1 del map["IDENTITY"] identity = 1 else: append("%s = {" % varname) splits = 0 identity = 0 mappings = map.items() mappings.sort() i = 0 for mapkey, mapvalue in mappings: mapcomment = '' if isinstance(mapkey, tuple): (mapkey, mapcomment) = mapkey if isinstance(mapvalue, tuple): (mapvalue, mapcomment) = mapvalue if mapkey is None: continue if (identity and mapkey == mapvalue and mapkey < 256): # No need to include identity mappings, since these # are already set for the first 256 code points. continue key = hexrepr(mapkey, key_precision) value = hexrepr(mapvalue, value_precision) if mapcomment and comments: append(' %s: %s,\t# %s' % (key, value, mapcomment)) else: append(' %s: %s,' % (key, value)) i += 1 if i == 4096: # Split the definition into parts to that the Python # parser doesn't dump core if splits == 0: append('}') else: append('})') append('%s.update({' % varname) i = 0 splits = splits + 1 if splits == 0: append('}') else: append('})') return l
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def python_tabledef_code(varname, map, comments=1): l = [] append = l.append append('%s = (' % varname) # Analyze map and create table dict mappings = map.items() mappings.sort() table = {} maxkey = 0 if map.has_key('IDENTITY'): for key in range(256): table[key] = (key, '') maxkey = 255 del map['IDENTITY'] for mapkey, mapvalue in mappings: mapcomment = '' if isinstance(mapkey, tuple): (mapkey, mapcomment) = mapkey if isinstance(mapvalue, tuple): (mapvalue, mapcomment) = mapvalue if mapkey is None: continue table[mapkey] = (mapvalue, mapcomment) if mapkey > maxkey: maxkey = mapkey if maxkey > MAX_TABLE_SIZE: # Table too large return None # Create table code for key in range(maxkey + 1): if key not in table: mapvalue = None mapcomment = 'UNDEFINED' else: mapvalue, mapcomment = table[key] if mapvalue is None: mapchar = UNI_UNDEFINED else: if isinstance(mapvalue, tuple): # 1-n mappings not supported return None else: mapchar = unichr(mapvalue) if mapcomment and comments: append(' %r\t# %s -> %s' % (mapchar, hexrepr(key), mapcomment)) else: append(' %r' % mapchar) append(')') return l
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def python_tabledef_code(varname, map, comments=1, key_precision=2): l = [] append = l.append append('%s = (' % varname) # Analyze map and create table dict mappings = map.items() mappings.sort() table = {} maxkey = 0 if map.has_key('IDENTITY'): for key in range(256): table[key] = (key, '') maxkey = 255 del map['IDENTITY'] for mapkey, mapvalue in mappings: mapcomment = '' if isinstance(mapkey, tuple): (mapkey, mapcomment) = mapkey if isinstance(mapvalue, tuple): (mapvalue, mapcomment) = mapvalue if mapkey is None: continue table[mapkey] = (mapvalue, mapcomment) if mapkey > maxkey: maxkey = mapkey if maxkey > MAX_TABLE_SIZE: # Table too large return None # Create table code for key in range(maxkey + 1): if key not in table: mapvalue = None mapcomment = 'UNDEFINED' else: mapvalue, mapcomment = table[key] if mapvalue is None: mapchar = UNI_UNDEFINED else: if isinstance(mapvalue, tuple): # 1-n mappings not supported return None else: mapchar = unichr(mapvalue) if mapcomment and comments: append(' %r\t# %s -> %s' % (mapchar, hexrepr(key), mapcomment)) else: append(' %r' % mapchar) append(')') return l
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def python_tabledef_code(varname, map, comments=1): l = [] append = l.append append('%s = (' % varname) # Analyze map and create table dict mappings = map.items() mappings.sort() table = {} maxkey = 0 if map.has_key('IDENTITY'): for key in range(256): table[key] = (key, '') maxkey = 255 del map['IDENTITY'] for mapkey, mapvalue in mappings: mapcomment = '' if isinstance(mapkey, tuple): (mapkey, mapcomment) = mapkey if isinstance(mapvalue, tuple): (mapvalue, mapcomment) = mapvalue if mapkey is None: continue table[mapkey] = (mapvalue, mapcomment) if mapkey > maxkey: maxkey = mapkey if maxkey > MAX_TABLE_SIZE: # Table too large return None # Create table code for key in range(maxkey + 1): if key not in table: mapvalue = None mapcomment = 'UNDEFINED' else: mapvalue, mapcomment = table[key] if mapvalue is None: mapchar = UNI_UNDEFINED else: if isinstance(mapvalue, tuple): # 1-n mappings not supported return None else: mapchar = unichr(mapvalue) if mapcomment and comments: append(' %r\t# %s -> %s' % (mapchar, hexrepr(key), mapcomment)) else: append(' %r' % mapchar) append(')') return l
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def python_tabledef_code(varname, map, comments=1): l = [] append = l.append append('%s = (' % varname) # Analyze map and create table dict mappings = map.items() mappings.sort() table = {} maxkey = 0 if map.has_key('IDENTITY'): for key in range(256): table[key] = (key, '') maxkey = 255 del map['IDENTITY'] for mapkey, mapvalue in mappings: mapcomment = '' if isinstance(mapkey, tuple): (mapkey, mapcomment) = mapkey if isinstance(mapvalue, tuple): (mapvalue, mapcomment) = mapvalue if mapkey is None: continue table[mapkey] = (mapvalue, mapcomment) if mapkey > maxkey: maxkey = mapkey if maxkey > MAX_TABLE_SIZE: # Table too large return None # Create table code for key in range(maxkey + 1): if key not in table: mapvalue = None mapcomment = 'UNDEFINED' else: mapvalue, mapcomment = table[key] if mapvalue is None: mapchar = UNI_UNDEFINED else: if isinstance(mapvalue, tuple): # 1-n mappings not supported return None else: mapchar = unichr(mapvalue) if mapcomment and comments: append(' %r\t# %s -> %s' % (mapchar, hexrepr(key, key_precision), mapcomment)) else: append(' %r' % mapchar) append(')') return l
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def codegen(name, map, comments=1): """ Returns Python source for the given map. Comments are included in the source, if comments is true (default). """ # Generate code decoding_map_code = python_mapdef_code( 'decoding_map', map, comments=comments) decoding_table_code = python_tabledef_code( 'decoding_table', map, comments=comments) encoding_map_code = python_mapdef_code( 'encoding_map', codecs.make_encoding_map(map), comments=comments) l = [ '''\
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def codegen(name, map, comments=1): """ Returns Python source for the given map. Comments are included in the source, if comments is true (default). """ # Generate code decoding_map_code = python_mapdef_code( 'decoding_map', map, comments=comments, precisions=(4, 2)) decoding_table_code = python_tabledef_code( 'decoding_table', map, comments=comments, precisions=(4, 2)) encoding_map_code = python_mapdef_code( 'encoding_map', codecs.make_encoding_map(map), comments=comments, precisions=(4, 2)) l = [ '''\
| 14,198
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def getregentry(): return (Codec().encode,Codec().decode,StreamReader,StreamWriter)
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def''') if not decoding_table_code: l.append(''' getregentry():''') if not decoding_table_code: l.append(''' ''') if not decoding_table_code: l.append(''' return''') if not decoding_table_code: l.append(''' (Codec().encode,Codec().decode,StreamReader,StreamWriter)''') if not decoding_table_code: l.append('''
| 14,199
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