bugged stringlengths 4 228k | fixed stringlengths 0 96.3M | __index_level_0__ int64 0 481k |
|---|---|---|
def pack_float(self, x): try: self.__buf = self.__buf + struct.pack('>f', x) except struct.error, msg: raise ConversionError, msg | def pack_float(self, x): try: self.__buf.write(struct.pack('>f', x)) except struct.error, msg: raise ConversionError, msg | 18,200 |
def pack_double(self, x): try: self.__buf = self.__buf + struct.pack('>d', x) except struct.error, msg: raise ConversionError, msg | def pack_double(self, x): try: self.__buf.write(struct.pack('>d', x)) except struct.error, msg: raise ConversionError, msg | 18,201 |
def pack_fstring(self, n, s): if n < 0: raise ValueError, 'fstring size must be nonnegative' n = ((n+3)/4)*4 data = s[:n] data = data + (n - len(data)) * '\0' self.__buf = self.__buf + data | def pack_fstring(self, n, s): if n < 0: raise ValueError, 'fstring size must be nonnegative' n = ((n+3)/4)*4 data = s[:n] data = data + (n - len(data)) * '\0' self.__buf = self.__buf + data | 18,202 |
def __init__(self, i): # Comparison outcomes are determined by the value of i. self.i = i | def __init__(self, i): # Comparison outcomes are determined by the value of i. self.i = i | 18,203 |
def test_one(n): global mutate, dict1, dict2, dict1keys, dict2keys # Fill the dicts without mutating them. mutate = 0 dict1keys = fill_dict(dict1, range(n), n) dict2keys = fill_dict(dict2, range(n), n) # Enable mutation, then compare the dicts so long as they have the # same size. mutate = 1 if verbose: print "trying... | def test_one(n): global mutate, dict1, dict2, dict1keys, dict2keys # Fill the dicts without mutating them. mutate = 0 dict1keys = fill_dict(dict1, range(n), n) dict2keys = fill_dict(dict2, range(n), n) # Enable mutation, then compare the dicts so long as they have the # same size. mutate = 1 if verbose: print "trying... | 18,204 |
def loadTestsFromName(self, name, module=None): """Return a suite of all tests cases given a string specifier. | def loadTestsFromName(self, name, module=None): """Return a suite of all tests cases given a string specifier. | 18,205 |
def __fixdict(self, dict): for key, val in dict.items(): if key[:6] == 'start_': key = key[6:] start, end = self.elements.get(key, (None, None)) if start is None: self.elements[key] = val, end elif key[:4] == 'end_': key = key[4:] start, end = self.elements.get(key, (None, None)) if end is None: self.elements[key] = st... | def __fixdict(self, dict): for key in dict.keys(): if key[:6] == 'start_': key = key[6:] start, end = self.elements.get(key, (None, None)) if start is None: self.elements[key] = val, end elif key[:4] == 'end_': key = key[4:] start, end = self.elements.get(key, (None, None)) if end is None: self.elements[key] = start, v... | 18,206 |
def __fixdict(self, dict): for key, val in dict.items(): if key[:6] == 'start_': key = key[6:] start, end = self.elements.get(key, (None, None)) if start is None: self.elements[key] = val, end elif key[:4] == 'end_': key = key[4:] start, end = self.elements.get(key, (None, None)) if end is None: self.elements[key] = st... | def __fixdict(self, dict): for key, val in dict.items(): if key[:6] == 'start_': tag = key[6:] start, end = self.elements.get(tag, (None, None)) if start is None: self.elements[key] = val, end elif key[:4] == 'end_': key = key[4:] start, end = self.elements.get(key, (None, None)) if end is None: self.elements[key] = st... | 18,207 |
def __fixdict(self, dict): for key, val in dict.items(): if key[:6] == 'start_': key = key[6:] start, end = self.elements.get(key, (None, None)) if start is None: self.elements[key] = val, end elif key[:4] == 'end_': key = key[4:] start, end = self.elements.get(key, (None, None)) if end is None: self.elements[key] = st... | def __fixdict(self, dict): for key, val in dict.items(): if key[:6] == 'start_': key = key[6:] start, end = self.elements.get(key, (None, None)) if start is None: self.elements[tag] = getattr(self, key), end elif key[:4] == 'end_': key = key[4:] start, end = self.elements.get(key, (None, None)) if end is None: self.ele... | 18,208 |
def __fixdict(self, dict): for key, val in dict.items(): if key[:6] == 'start_': key = key[6:] start, end = self.elements.get(key, (None, None)) if start is None: self.elements[key] = val, end elif key[:4] == 'end_': key = key[4:] start, end = self.elements.get(key, (None, None)) if end is None: self.elements[key] = st... | def __fixdict(self, dict): for key, val in dict.items(): if key[:6] == 'start_': key = key[6:] start, end = self.elements.get(key, (None, None)) if start is None: self.elements[key] = val, end elif key[:4] == 'end_': tag = key[4:] start, end = self.elements.get(tag, (None, None)) if end is None: self.elements[key] = st... | 18,209 |
def __fixdict(self, dict): for key, val in dict.items(): if key[:6] == 'start_': key = key[6:] start, end = self.elements.get(key, (None, None)) if start is None: self.elements[key] = val, end elif key[:4] == 'end_': key = key[4:] start, end = self.elements.get(key, (None, None)) if end is None: self.elements[key] = st... | def __fixdict(self, dict): for key, val in dict.items(): if key[:6] == 'start_': key = key[6:] start, end = self.elements.get(key, (None, None)) if start is None: self.elements[key] = val, end elif key[:4] == 'end_': key = key[4:] start, end = self.elements.get(key, (None, None)) if end is None: self.elements[key] = st... | 18,210 |
def repr1(self, x, level): typename = `type(x)`[7:-2] # "<type '......'>" if ' ' in typename: parts = string.split(typename) typename = string.joinfields(parts, '_') try: f = eval('self.repr_' + typename) except AttributeError: s = `x` if len(s) > self.maxother: i = max(0, (self.maxother-3)/2) j = max(0, self.maxother-... | def repr1(self, x, level): typename = `type(x)`[7:-2] # "<type '......'>" if ' ' in typename: parts = string.split(typename) typename = string.joinfields(parts, '_') if hasattr(self, 'repr_' + typename): return getattr(self, 'repr_' + typename)(x, level) else: s = `x` if len(s) > self.maxother: i = max(0, (self.maxothe... | 18,211 |
def repr1(self, x, level): typename = `type(x)`[7:-2] # "<type '......'>" if ' ' in typename: parts = string.split(typename) typename = string.joinfields(parts, '_') try: f = eval('self.repr_' + typename) except AttributeError: s = `x` if len(s) > self.maxother: i = max(0, (self.maxother-3)/2) j = max(0, self.maxother-... | def repr1(self, x, level): typename = `type(x)`[7:-2] # "<type '......'>" if ' ' in typename: parts = string.split(typename) typename = string.joinfields(parts, '_') try: f = eval('self.repr_' + typename) except AttributeError: s = `x` if len(s) > self.maxother: i = max(0, (self.maxother-3)/2) j = max(0, self.maxother-... | 18,212 |
def document(self, object, name=None, *args): """Generate documentation for an object.""" args = (object, name) + args if inspect.ismodule(object): return self.docmodule(*args) if inspect.isclass(object): return self.docclass(*args) if inspect.isroutine(object): returnself.docroutine(*args) return self.docother(*args) | def document(self, object, name=None, *args): """Generate documentation for an object.""" args = (object, name) + args if inspect.ismodule(object): return self.docmodule(*args) if inspect.isclass(object): return self.docclass(*args) if inspect.isroutine(object): return self.docroutine(*args) return self.docother(*args) | 18,213 |
def test_lc_numeric_basic(self): # Test nl_langinfo against localeconv for loc in candidate_locales: try: setlocale(LC_NUMERIC, loc) except Error: continue for li, lc in ((RADIXCHAR, "decimal_point"), (THOUSEP, "thousands_sep")): nl_radixchar = nl_langinfo(li) li_radixchar = localeconv()[lc] try: set_locale = setlocale... | deftest_lc_numeric_basic(self):#Testnl_langinfoagainstlocaleconvforlocincandidate_locales:try:setlocale(LC_NUMERIC,loc)exceptError:continueforli,lcin((RADIXCHAR,"decimal_point"),(THOUSEP,"thousands_sep")):nl_radixchar=nl_langinfo(li)li_radixchar=localeconv()[lc]try:set_locale=setlocale(LC_NUMERIC)exceptError:set_locale... | 18,214 |
def test_float_parsing(self): # Bug #1391872: Test whether float parsing is okay on European # locales. for loc in candidate_locales: try: setlocale(LC_NUMERIC, loc) except Error: continue self.assertEquals(int(eval('3.14') * 100), 314, "using eval('3.14') failed for %s" % loc) self.assertEquals(int(float('3.14') * 100... | def test_float_parsing(self): # Bug #1391872: Test whether float parsing is okay on European # locales. for loc in candidate_locales: try: setlocale(LC_NUMERIC, loc) except Error: continue self.assertEquals(int(eval('3.14') * 100), 314, "using eval('3.14') failed for %s" % loc) self.assertEquals(int(float('3.14') * 100... | 18,215 |
def add_channel(self, map=None): #self.log_info('adding channel %s' % self) if map is None: map = socket_map map[self._fileno] = self | def add_channel(self, map=None): #self.log_info('adding channel %s' % self) if map is None: map = self._map map[self._fileno] = self | 18,216 |
def del_channel(self, map=None): fd = self._fileno if map is None: map = socket_map if map.has_key(fd): #self.log_info('closing channel %d:%s' % (fd, self)) del map[fd] | def del_channel(self, map=None): fd = self._fileno if map is None: map = self._map if map.has_key(fd): #self.log_info('closing channel %d:%s' % (fd, self)) del map[fd] | 18,217 |
def make_release_tree (self, base_dir, files): | def make_release_tree (self, base_dir, files): | 18,218 |
def make_release_tree (self, base_dir, files): | def make_release_tree (self, base_dir, files): | 18,219 |
def make_release_tree (self, base_dir, files): | def make_release_tree (self, base_dir, files): | 18,220 |
def make_zipfile (self, base_dir): | def make_zipfile (self, base_dir): | 18,221 |
def spawn (cmd, search_path=1, verbose=0, dry_run=0): """Run another program, specified as a command list 'cmd', in a new process. 'cmd' is just the argument list for the new process, ie. cmd[0] is the program to run and cmd[1:] are the rest of its arguments. There is no way to run a program with a name different fr... | def spawn (cmd, search_path=1, verbose=0, dry_run=0): """Run another program, specified as a command list 'cmd', in a new process. 'cmd' is just the argument list for the new process, ie. cmd[0] is the program to run and cmd[1:] are the rest of its arguments. There is no way to run a program with a name different fr... | 18,222 |
def run(self): # Copies all .py files, then also copies the txt and gif files build_py.run(self) assert self.packages == [idlelib] for name in txt_files: outfile = self.get_plain_outfile(self.build_lib, [idlelib], name) dir = os.path.dirname(outfile) self.mkpath(dir) self.copy_file(name, outfile, preserve_mode = 0) for... | def run(self): # Copies all .py files, then also copies the txt and gif files build_py.run(self) assert self.packages == [idlelib] for name in txt_files: outfile = self.get_plain_outfile(self.build_lib, [idlelib], name) dir = os.path.dirname(outfile) self.mkpath(dir) self.copy_file(os.path.join(package_dir, name), outf... | 18,223 |
def get_source_files(self): # returns the .py files, the .txt files, and the icons icons = [os.path.join("Icons",name) for name in Icons] return build_py.get_source_files(self)+txt_files+icons | def get_source_files(self): # returns the .py files, the .txt files, and the icons icons = [os.path.join(package_dir, "Icons",name) for name in Icons] txts = [os.path.join(package_dir, name) for name in txt_files] return build_py.get_source_files(self)+txt_files+icons | 18,224 |
def _bytecode_filenames(self, files): files = [n for n in files if n.endswith('.py')] return install_lib._bytecode_filenames(self,files) | def _bytecode_filenames(self, files): files = [n for n in files if n.endswith('.py')] return install_lib._bytecode_filenames(self,files) | 18,225 |
def _bytecode_filenames(self, files): files = [n for n in files if n.endswith('.py')] return install_lib._bytecode_filenames(self,files) | def _bytecode_filenames(self, files): files = [n for n in files if n.endswith('.py')] return install_lib._bytecode_filenames(self,files) | 18,226 |
def __init__(self): self.preffilepath = ":Python:PythonIDE preferences" Wapplication.Application.__init__(self, 'Pide') from Carbon import AE from Carbon import AppleEvents AE.AEInstallEventHandler(AppleEvents.kCoreEventClass, AppleEvents.kAEOpenApplication, self.ignoreevent) AE.AEInstallEventHandler(AppleEvents.kCore... | def __init__(self): self.preffilepath = ":Python:PythonIDE preferences" Wapplication.Application.__init__(self, 'Pide') from Carbon import AE from Carbon import AppleEvents AE.AEInstallEventHandler(AppleEvents.kCoreEventClass, AppleEvents.kAEOpenApplication, self.ignoreevent) AE.AEInstallEventHandler(AppleEvents.kCore... | 18,227 |
def mkdirs(dst): """Make directories leading to 'dst' if they don't exist yet""" if dst == '' or os.path.exists(dst): return head, tail = os.path.split(dst) if not ':' in head: head = head + ':' mkdirs(head) os.mkdir(dst, 0777) | def mkdirs(dst): """Make directories leading to 'dst' if they don't exist yet""" if dst == '' or os.path.exists(dst): return head, tail = os.path.split(dst) if os.sep == ':' and not ':' in head: head = head + ':' mkdirs(head) os.mkdir(dst, 0777) | 18,228 |
def assertValid(self, str, symbol='single'): '''succeed iff str is a valid piece of code''' expected = compile(str, "<input>", symbol, PyCF_DONT_IMPLY_DEDENT) self.assertEquals( compile_command(str, "<input>", symbol), expected) | def assertValid(self, str, symbol='single'): '''succeed iff str is a valid piece of code''' expected = compile(str, "<input>", symbol, PyCF_DONT_IMPLY_DEDENT) self.assertEquals( compile_command(str, "<input>", symbol), expected) | 18,229 |
av("def x():\n pass\n") | av("def x():\n pass\n") | 18,230 |
ai("def x():\n") | ai("def x():\n") | 18,231 |
ai("def x():\n") | ai("def x():\n") | 18,232 |
def __init__(self, filename, when='h', interval=1, backupCount=0, encoding=None): BaseRotatingHandler.__init__(self, filename, 'a', encoding) self.when = string.upper(when) self.backupCount = backupCount # Calculate the real rollover interval, which is just the number of # seconds between rollovers. Also set the filen... | def __init__(self, filename, when='h', interval=1, backupCount=0, encoding=None): BaseRotatingHandler.__init__(self, filename, 'a', encoding) self.when = string.upper(when) self.backupCount = backupCount # Calculate the real rollover interval, which is just the number of # seconds between rollovers. Also set the filen... | 18,233 |
def __init__(self): | def __init__(self): | 18,234 |
def setflag(self, flag): | def setflag(self, flag): | 18,235 |
def __init__(self, pattern, data=None): | def __init__(self, pattern, data=None): | 18,236 |
def getwidth(self): | def getwidth(self): | 18,237 |
def set(self, flag): | def set(self, flag): | 18,238 |
def __init__(self, string): | def __init__(self, string): | 18,239 |
def __next(self): | def __next(self): | 18,240 |
def __next(self): | def __next(self): | 18,241 |
def __next(self): | def __next(self): | 18,242 |
def __next(self): | def __next(self): | 18,243 |
def _fixescape(escape, character_class=0): # convert escape to (type, value) if character_class: # inside a character class, we'll look in the character # escapes dictionary first code = ESCAPES.get(escape) if code: return code code = CATEGORIES.get(escape) else: code = CATEGORIES.get(escape) if code: return code code ... | def _fixescape(escape, character_class=0): # convert escape to (type, value) if character_class: # inside a character class, we'll look in the character # escapes dictionary first code = ESCAPES.get(escape) if code: return code code = CATEGORIES.get(escape) else: code = CATEGORIES.get(escape) if code: return code code ... | 18,244 |
def _fixescape(escape, character_class=0): # convert escape to (type, value) if character_class: # inside a character class, we'll look in the character # escapes dictionary first code = ESCAPES.get(escape) if code: return code code = CATEGORIES.get(escape) else: code = CATEGORIES.get(escape) if code: return code code ... | def _fixescape(escape, character_class=0): # convert escape to (type, value) if character_class: # inside a character class, we'll look in the character # escapes dictionary first code = ESCAPES.get(escape) if code: return code code = CATEGORIES.get(escape) else: code = CATEGORIES.get(escape) if code: return code code ... | 18,245 |
def _fixescape(escape, character_class=0): # convert escape to (type, value) if character_class: # inside a character class, we'll look in the character # escapes dictionary first code = ESCAPES.get(escape) if code: return code code = CATEGORIES.get(escape) else: code = CATEGORIES.get(escape) if code: return code code ... | def _fixescape(escape, character_class=0): # convert escape to (type, value) if character_class: # inside a character class, we'll look in the character # escapes dictionary first code = ESCAPES.get(escape) if code: return code code = CATEGORIES.get(escape) else: code = CATEGORIES.get(escape) if code: return code code ... | 18,246 |
def _branch(subpattern, items): # form a branch operator from a set of items (FIXME: move this # optimization to the compiler module!) # check if all items share a common prefix while 1: prefix = None for item in items: if not item: break if prefix is None: prefix = item[0] elif item[0] != prefix: break else: # all s... | def _escape(source, escape, state): code = CATEGORIES.get(escape) if code: return code code = ESCAPES.get(escape) if code: return code try: if escape[1:2] == "x": while source.next in HEXDIGITS: escape = escape + source.get() escape = escape[2:] return LITERAL, chr(int(escape[-4:], 16) & 0xff) elif str(escape[1:2]) i... | 18,247 |
def _branch(subpattern, items): # form a branch operator from a set of items (FIXME: move this # optimization to the compiler module!) # check if all items share a common prefix while 1: prefix = None for item in items: if not item: break if prefix is None: prefix = item[0] elif item[0] != prefix: break else: # all s... | def _branch(subpattern, items): # form a branch operator from a set of items (FIXME: move this # optimization to the compiler module!) # check if all items share a common prefix while 1: prefix = None for item in items: if not item: break if prefix is None: prefix = item[0] elif item[0] != prefix: break else: # all s... | 18,248 |
def _branch(subpattern, items): # form a branch operator from a set of items (FIXME: move this # optimization to the compiler module!) # check if all items share a common prefix while 1: prefix = None for item in items: if not item: break if prefix is None: prefix = item[0] elif item[0] != prefix: break else: # all s... | def _branch(subpattern, items): # form a branch operator from a set of items (FIXME: move this # optimization to the compiler module!) # check if all items share a common prefix while 1: prefix = None for item in items: if not item: break if prefix is None: prefix = item[0] elif item[0] != prefix: break else: # all s... | 18,249 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(state) while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: subpattern.appe... | 18,250 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 18,251 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 18,252 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 18,253 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 18,254 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 18,255 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 18,256 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def_parse(source,pattern,flags=()):#parseregularexpressionpatternintoanoperatorlist.subpattern=SubPattern(pattern)this=Nonewhile1:ifstr(source.next)in("|",")"):break#endofsubpatternthis=source.get()ifthisisNone:break#endofpatternifthisandthis[0]notinSPECIAL_CHARS:subpattern.append((LITERAL,this))elifthis=="[":#characte... | 18,257 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 18,258 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 18,259 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 18,260 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 18,261 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 18,262 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 18,263 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 18,264 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 18,265 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 18,266 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 18,267 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def_parse(source,pattern,flags=()):#parseregularexpressionpatternintoanoperatorlist.subpattern=SubPattern(pattern)this=Nonewhile1:ifstr(source.next)in("|",")"):break#endofsubpatternthis=source.get()ifthisisNone:break#endofpatternifthisandthis[0]notinSPECIAL_CHARS:subpattern.append((LITERAL,this))elifthis=="[":#characte... | 18,268 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 18,269 |
def parse(source, flags=()): s = Tokenizer(source) g = Pattern() b = [] while 1: p = _parse(s, g, flags) tail = s.get() if tail == "|": b.append(p) elif tail == ")": raise SyntaxError, "unbalanced parenthesis" elif tail is None: if b: b.append(p) p = SubPattern(g) _branch(p, b) break else: raise SyntaxError, "bogus cha... | def parse(pattern, flags=0): source = Tokenizer(pattern) state = State() b = [] while 1: p = _parse(s, g, flags) tail = s.get() if tail == "|": b.append(p) elif tail == ")": raise SyntaxError, "unbalanced parenthesis" elif tail is None: if b: b.append(p) p = SubPattern(g) _branch(p, b) break else: raise SyntaxError, "... | 18,270 |
def parse(source, flags=()): s = Tokenizer(source) g = Pattern() b = [] while 1: p = _parse(s, g, flags) tail = s.get() if tail == "|": b.append(p) elif tail == ")": raise SyntaxError, "unbalanced parenthesis" elif tail is None: if b: b.append(p) p = SubPattern(g) _branch(p, b) break else: raise SyntaxError, "bogus cha... | def parse(source, flags=()): s = Tokenizer(source) g = Pattern() b = [] while 1: p = _parse(source, state, flags) tail = source.get() if tail == "|": b.append(p) elif tail == ")": raise SyntaxError, "unbalanced parenthesis" elif tail is None: if b: b.append(p) p = SubPattern(g) _branch(p, b) break else: raise SyntaxErr... | 18,271 |
def parse(source, flags=()): s = Tokenizer(source) g = Pattern() b = [] while 1: p = _parse(s, g, flags) tail = s.get() if tail == "|": b.append(p) elif tail == ")": raise SyntaxError, "unbalanced parenthesis" elif tail is None: if b: b.append(p) p = SubPattern(g) _branch(p, b) break else: raise SyntaxError, "bogus cha... | def parse(source, flags=()): s = Tokenizer(source) g = Pattern() b = [] while 1: p = _parse(s, g, flags) tail = s.get() if tail == "|": b.append(p) elif tail == ")": raise SyntaxError, "unbalanced parenthesis" elif tail is None: if b: b.append(p) p = _branch(state, b) break else: raise SyntaxError, "bogus characters at... | 18,272 |
def getlongresp(self): """Internal: get a response plus following text from the server. Raise various errors if the response indicates an error.""" resp = self.getresp() if resp[:3] not in LONGRESP: raise NNTPReplyError(resp) list = [] while 1: line = self.getline() if line == '.': break if line[:2] == '..': line = lin... | def getlongresp(self,fileHandle=None): """Internal: get a response plus following text from the server. Raise various errors if the response indicates an error.""" resp = self.getresp() if resp[:3] not in LONGRESP: raise NNTPReplyError(resp) list = [] while 1: line = self.getline() if line == '.': break if line[:2] == ... | 18,273 |
def getlongresp(self): """Internal: get a response plus following text from the server. Raise various errors if the response indicates an error.""" resp = self.getresp() if resp[:3] not in LONGRESP: raise NNTPReplyError(resp) list = [] while 1: line = self.getline() if line == '.': break if line[:2] == '..': line = lin... | def getlongresp(self): """Internal: get a response plus following text from the server. Raise various errors if the response indicates an error.""" openedFile = None try: if isinstance(fileHandle, types.StringType): openedFile = fileHandle = open(fileHandle, "w") resp = self.getresp() if resp[:3] not in LONGRESP: ra... | 18,274 |
def longcmd(self, line): """Internal: send a command and get the response plus following text.""" self.putcmd(line) return self.getlongresp() | def longcmd(self, line, fileHandle=None): """Internal: send a command and get the response plus following text.""" self.putcmd(line) return self.getlongresp() | 18,275 |
def longcmd(self, line): """Internal: send a command and get the response plus following text.""" self.putcmd(line) return self.getlongresp() | def longcmd(self, line): """Internal: send a command and get the response plus following text.""" self.putcmd(line) return self.getlongresp() | 18,276 |
def artcmd(self, line): """Internal: process a HEAD, BODY or ARTICLE command.""" resp, list = self.longcmd(line) resp, nr, id = self.statparse(resp) return resp, nr, id, list | def artcmd(self, line, fileHandle=None): """Internal: process a HEAD, BODY or ARTICLE command.""" resp, list = self.longcmd(line) resp, nr, id = self.statparse(resp) return resp, nr, id, list | 18,277 |
def artcmd(self, line): """Internal: process a HEAD, BODY or ARTICLE command.""" resp, list = self.longcmd(line) resp, nr, id = self.statparse(resp) return resp, nr, id, list | def artcmd(self, line): """Internal: process a HEAD, BODY or ARTICLE command.""" resp, list = self.longcmd(line,fileHandle) resp, nr, id = self.statparse(resp) return resp, nr, id, list | 18,278 |
def body(self, id): """Process a BODY command. Argument: - id: article number or message id Returns: - resp: server response if successful - nr: article number - id: message id - list: the lines of the article's body""" | def body(self, id, fileHandle=None): """Process a BODY command. Argument: - id: article number or message id Returns: - resp: server response if successful - nr: article number - id: message id - list: the lines of the article's body""" | 18,279 |
def body(self, id): """Process a BODY command. Argument: - id: article number or message id Returns: - resp: server response if successful - nr: article number - id: message id - list: the lines of the article's body""" | def body(self, id): """Process a BODY command. Argument: - id: article number or message id Returns: - resp: server response if successful - nr: article number - id: message id - list: the lines of the article's body""" | 18,280 |
def _subx(pattern, template): # internal: pattern.sub/subn implementation helper if callable(template): filter = template else: template = _compile_repl(template, pattern) if not template[0] and len(template[1]) == 1: # literal replacement filter = template[1][0] else: def filter(match, template=template): return sre_p... | def _subx(pattern, template): # internal: pattern.sub/subn implementation helper if callable(template): filter = template else: template = _compile_repl(template, pattern) if not template[0] and len(template[1]) == 1: # literal replacement filter = template[1][0] else: def filter(match, template=template): return sre_p... | 18,281 |
def filter(match, template=template): return sre_parse.expand_template(template, match) | def filter(match, template=template): return sre_parse.expand_template(template, match) | 18,282 |
def register_X_browsers(): # First, the Mozilla/Netscape browsers for browser in ("mozilla-firefox", "firefox", "mozilla-firebird", "firebird", "mozilla", "netscape"): if _iscommand(browser): register(browser, None, Mozilla(browser)) # The default Gnome browser if _iscommand("gconftool-2"): # get the web browser strin... | def register_X_browsers(): # First, the Mozilla/Netscape browsers for browser in ("mozilla-firefox", "firefox", "mozilla-firebird", "firebird", "mozilla", "netscape"): if _iscommand(browser): register(browser, None, Mozilla(browser)) # The default Gnome browser if _iscommand("gconftool-2"): # get the web browser strin... | 18,283 |
def run (self): | def run (self): | 18,284 |
def run (self): | def run (self): | 18,285 |
def create_exe (self, arcname): import struct, zlib | def create_exe (self, arcname, fullname): import struct, zlib | 18,286 |
def create_exe (self, arcname): import struct, zlib | def create_exe (self, arcname): import struct, zlib | 18,287 |
def makepath(*paths): dir = os.path.join(*paths) return os.path.normcase(os.path.abspath(dir)) | def makepath(*paths): dir = os.path.join(*paths) return os.path.normcase(os.path.abspath(dir)) | 18,288 |
def __call__(self): self.__setup() prompt = 'Hit Return for more, or q (and Return) to quit: ' lineno = 0 while 1: try: for i in range(lineno, lineno + self.MAXLINES): print self.__lines[i] except IndexError: break else: lineno += self.MAXLINES key = None while key is None: key = raw_input(prompt) if key not in ('', 'q... | def __call__(self): self.__setup() prompt = 'Hit Return for more, or q (and Return) to quit: ' lineno = 0 while 1: try: for i in range(lineno, lineno + self.MAXLINES): print self.__lines[i] except IndexError: break else: lineno += self.MAXLINES key = None while key is None: key = raw_input(prompt) if key not in ('', 'q... | 18,289 |
def realpath(filename): """Return the canonical path of the specified filename, eliminating any | def realpath(filename): """Return the canonical path of the specified filename, eliminating any | 18,290 |
def index(dir): """Return a list of (module-name, synopsis) pairs for a directory tree.""" results = [] for entry in os.listdir(dir): path = os.path.join(dir, entry) if ispackage(path): results.extend(map( lambda (m, s), pkg=entry: (pkg + '.' + m, s), index(path))) elif os.path.isfile(path) and entry[-3:] == '.py': res... | def index(dir): """Return a list of (module-name, synopsis) pairs for a directory tree.""" results = [] for entry in os.listdir(dir): path = os.path.join(dir, entry) if ispackage(path): results.extend(map( lambda (m, s), pkg=entry: (pkg + '.' + m, s), index(path))) elif os.path.isfile(path) and entry[-3:] == '.py': res... | 18,291 |
def modulename(path): """Return the Python module name for a given path, or None.""" filename = os.path.basename(path) if lower(filename[-3:]) == '.py': return filename[:-3] elif lower(filename[-4:]) == '.pyc': return filename[:-4] elif lower(filename[-11:]) == 'module.so': return filename[:-11] elif lower(filename[-13... | def modulename(path): """Return the Python module name for a given path, or None.""" filename = os.path.basename(path) if lower(filename[-3:]) == '.py': return filename[:-3] elif lower(filename[-4:]) in ['.pyc', '.pyd', '.pyo']: return filename[:-4] elif lower(filename[-11:]) == 'module.so': return filename[:-11] elif ... | 18,292 |
def document(self, object, *args): """Generate documentation for an object.""" args = (object,) + args if inspect.ismodule(object): return apply(self.docmodule, args) if inspect.isclass(object): return apply(self.docclass, args) if inspect.ismethod(object): return apply(self.docmethod, args) if inspect.isbuiltin(object... | def document(self, object, *args): """Generate documentation for an object.""" args = (object,) + args if inspect.ismodule(object): return apply(self.docmodule, args) if inspect.isclass(object): return apply(self.docclass, args) if inspect.isroutine(object): return apply(self.docroutine, args) raise TypeError, "don't k... | 18,293 |
def heading(self, title, fgcol, bgcol, extras=''): """Format a page heading.""" return """ | def heading(self, title, fgcol, bgcol, extras=''): """Format a page heading.""" return """ | 18,294 |
def heading(self, title, fgcol, bgcol, extras=''): """Format a page heading.""" return """ | def heading(self, title, fgcol, bgcol, extras=''): """Format a page heading.""" return """ | 18,295 |
def section(self, title, fgcol, bgcol, contents, width=20, prelude='', marginalia=None, gap=' '): """Format a section with a heading.""" if marginalia is None: marginalia = ' ' * width result = """ | def section(self, title, fgcol, bgcol, contents, width=20, prelude='', marginalia=None, gap=' '): """Format a section with a heading.""" if marginalia is None: marginalia = ' ' * width result = """ | 18,296 |
def bigsection(self, title, *args): """Format a section with a big heading.""" title = '<big><strong>%s</strong></big>' % title return apply(self.section, (title,) + args) | def bigsection(self, title, *args): """Format a section with a big heading.""" title = '<big><strong>%s</strong></big>' % title return apply(self.section, (title,) + args) | 18,297 |
def docmodule(self, object): """Produce HTML documentation for a module object.""" name = object.__name__ result = '' head = '<br><big><big><strong> %s</strong></big></big>' % name try: path = os.path.abspath(inspect.getfile(object)) filelink = '<a href="file:%s">%s</a>' % (path, path) except TypeError: filelink =... | def docmodule(self, object): """Produce HTML documentation for a module object.""" name = object.__name__ parts = split(name, '.') links = [] for i in range(len(parts)-1): links.append( '<a href="%s.html"><font color=" (join(parts[:i+1], '.'), parts[i])) linkedname = join(links + parts[-1:], '.') head = '<big><big><str... | 18,298 |
def docmodule(self, object): """Produce HTML documentation for a module object.""" name = object.__name__ result = '' head = '<br><big><big><strong> %s</strong></big></big>' % name try: path = os.path.abspath(inspect.getfile(object)) filelink = '<a href="file:%s">%s</a>' % (path, path) except TypeError: filelink =... | def docmodule(self, object): """Produce HTML documentation for a module object.""" name = object.__name__ result = '' head = '<br><big><big><strong> %s</strong></big></big>' % name try: path = os.path.abspath(inspect.getfile(object)) filelink = '<a href="file:%s">%s</a>' % (path, path) except TypeError: filelink =... | 18,299 |
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