Datasets:
JoaoJunior
/
formatted-python-code-APR

Dataset card Data Studio Files
xet
Community
1
bugged
stringlengths
4
228k
fixed
stringlengths
0
96.3M
__index_level_0__
int64
0
481k
def setup(self, f, t): self.lineno = None self.stack = [] if t and t.tb_frame is f: t = t.tb_next while f and f is not self.botframe: self.stack.append((f, f.f_lineno)) f = f.f_back self.stack.reverse() self.curindex = max(0, len(self.stack) - 1) while t: self.stack.append((t.tb_frame, t.tb_lineno)) t = t.tb_next if 0 <= self.curindex < len(self.stack): self.curframe = self.stack[self.curindex][0] else: self.curframe = None
def setup(self, f, t): self.lineno = None self.stack = [] if t and t.tb_frame is f: t = t.tb_next while f and f is not self.botframe: self.stack.append((f, f.f_lineno)) f = f.f_back self.stack.reverse() self.curindex = max(0, len(self.stack) - 1) while t is not None: self.stack.append((t.tb_frame, t.tb_lineno)) t = t.tb_next if 0 <= self.curindex < len(self.stack): self.curframe = self.stack[self.curindex][0] else: self.curframe = None
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def setup(self, f, t): self.lineno = None self.stack = [] if t and t.tb_frame is f: t = t.tb_next while f and f is not self.botframe: self.stack.append((f, f.f_lineno)) f = f.f_back self.stack.reverse() self.curindex = max(0, len(self.stack) - 1) while t: self.stack.append((t.tb_frame, t.tb_lineno)) t = t.tb_next if 0 <= self.curindex < len(self.stack): self.curframe = self.stack[self.curindex][0] else: self.curframe = None
def setup(self, f, t): self.lineno = None self.stack = [] if t and t.tb_frame is f: t = t.tb_next while f and f is not self.botframe: self.stack.append((f, f.f_lineno)) f = f.f_back self.stack.reverse() self.curindex = max(0, len(self.stack) - 1) while t: self.stack.append((t.tb_frame, t.tb_lineno)) t = t.tb_next self.curframe = self.stack[self.curindex][0]
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def runctx(self, cmd, globals, locals): self.reset() sys.trace = self.dispatch try: exec(cmd + '\n', globals, locals) except PdbQuit: pass except: print '***', sys.exc_type + ':', `sys.exc_value` print '*** Post Mortem Debugging:' sys.trace = None del sys.trace try: self.ask_user(None, sys.exc_traceback) except PdbQuit: pass finally: self.reset()
def runctx(self, cmd, globals, locals): self.reset() sys.trace = self.dispatch try: exec(cmd + '\n', globals, locals) except PdbQuit: return except: print '***', sys.exc_type + ':', `sys.exc_value` print '*** Post Mortem Debugging:' sys.trace = None del sys.trace try: self.ask_user(None, sys.exc_traceback) except PdbQuit: return finally: self.reset()
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def runctx(self, cmd, globals, locals): self.reset() sys.trace = self.dispatch try: exec(cmd + '\n', globals, locals) except PdbQuit: pass except: print '***', sys.exc_type + ':', `sys.exc_value` print '*** Post Mortem Debugging:' sys.trace = None del sys.trace try: self.ask_user(None, sys.exc_traceback) except PdbQuit: pass finally: self.reset()
def runctx(self, cmd, globals, locals): self.reset() sys.trace = self.dispatch try: exec(cmd + '\n', globals, locals) except PdbQuit: pass except: print '***', sys.exc_type + ':', `sys.exc_value` t = sys.exc_traceback finally: self.reset()
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def runctx(self, cmd, globals, locals): self.reset() sys.trace = self.dispatch try: exec(cmd + '\n', globals, locals) except PdbQuit: pass except: print '***', sys.exc_type + ':', `sys.exc_value` print '*** Post Mortem Debugging:' sys.trace = None del sys.trace try: self.ask_user(None, sys.exc_traceback) except PdbQuit: pass finally: self.reset()
def runctx(self, cmd, globals, locals): self.trace = None del self.trace self.forget() print '!!! Post-mortem debugging' self.pmd(t) def pmd(self, traceback): t = traceback if self.botframe is not None: while t is not None: if t.tb_frame is not self.botframe: break t = t.tb_next else: t = sys.exc_traceback try: self.ask_user(self.botframe, t) except PdbQuit: pass finally: self.forget() sys.trace = self.dispatch try: exec(cmd + '\n', globals, locals) except PdbQuit: pass except: print '***', sys.exc_type + ':', `sys.exc_value` print '*** Post Mortem Debugging:' sys.trace = None del sys.trace try: self.ask_user(None, sys.exc_traceback) except PdbQuit: pass finally: self.trace = None del self.trace self.forget() print '!!! Post-mortem debugging' self.pmd(t) def pmd(self, traceback): t = traceback if self.botframe is not None: while t is not None: if t.tb_frame is not self.botframe: break t = t.tb_next else: t = sys.exc_traceback try: self.ask_user(self.botframe, t) except PdbQuit: pass finally: self.forget()
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def dispatch_call(self, frame, arg): if self.botframe is None: self.botframe = frame return if not (self.stop_here(frame) or self.break_anywhere(frame)): return frame.f_locals['__args__'] = arg return self.dispatch
def dispatch_call(self, frame, arg): if self.botframe is None: self.botframe = frame return None if not (self.stop_here(frame) or self.break_anywhere(frame)): return None frame.f_locals['__args__'] = arg return None self.dispatch
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def dispatch_call(self, frame, arg): if self.botframe is None: self.botframe = frame return if not (self.stop_here(frame) or self.break_anywhere(frame)): return frame.f_locals['__args__'] = arg return self.dispatch
def dispatch_call(self, frame, arg): if self.botframe is None: self.botframe = frame return if not (self.stop_here(frame) or self.break_anywhere(frame)): return None if arg is None: print '[Entering non-function block.]' else: frame.f_locals['__args__'] = arg return self.dispatch
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def dispatch_return(self, frame, arg): if self.stop_here(frame): print '!!! return', `arg` return
def dispatch_return(self, frame, arg): self.lastretval = arg return None
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def dispatch_exception(self, frame, arg): if self.stop_here(frame): print '!!! exception', arg[0] + ':', `arg[1]` self.ask_user(frame, arg[2]) return self.dispatch
def dispatch_exception(self, frame, arg): if self.stop_here(frame): print '!!!', arg[0] + ':', `arg[1]` self.ask_user(frame, arg[2]) return self.dispatch
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def encode_plain(user, password): return encode_base64("%s\0%s\0%s" % (user, user, password), eol="")
def encode_plain(user, password): return encode_base64("%s\0%s\0%s" % (user, user, password), eol="")
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def add(self, message): """Add message and return assigned key.""" tmp_file = self._create_tmp() try: self._dump_message(message, tmp_file) finally: _sync_close(tmp_file) if isinstance(message, MaildirMessage): subdir = message.get_subdir() suffix = self.colon + message.get_info() if suffix == self.colon: suffix = '' else: subdir = 'new' suffix = '' uniq = os.path.basename(tmp_file.name).split(self.colon)[0] dest = os.path.join(self._path, subdir, uniq + suffix) os.rename(tmp_file.name, dest) if isinstance(message, MaildirMessage): os.utime(dest, (os.path.getatime(dest), message.get_date())) return uniq
def add(self, message): """Add message and return assigned key.""" tmp_file = self._create_tmp() try: self._dump_message(message, tmp_file) finally: _sync_close(tmp_file) if isinstance(message, MaildirMessage): subdir = message.get_subdir() suffix = self.colon + message.get_info() if suffix == self.colon: suffix = '' else: subdir = 'new' suffix = '' uniq = os.path.basename(tmp_file.name).split(self.colon)[0] dest = os.path.join(self._path, subdir, uniq + suffix) try: if hasattr(os, 'link'): os.link(tmp_file.name, dest) os.remove(tmp_file.name) else: os.rename(tmp_file.name, dest) except OSError, e: os.remove(tmp_file.name) if e.errno == errno.EEXIST: raise ExternalClashError('Name clash with existing message: %s' % dest) else: raise if isinstance(message, MaildirMessage): os.utime(dest, (os.path.getatime(dest), message.get_date())) return uniq
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def _create_tmp(self): """Create a file in the tmp subdirectory and open and return it.""" now = time.time() hostname = socket.gethostname() if '/' in hostname: hostname = hostname.replace('/', r'\057') if ':' in hostname: hostname = hostname.replace(':', r'\072') uniq = "%s.M%sP%sQ%s.%s" % (int(now), int(now % 1 * 1e6), os.getpid(), Maildir._count, hostname) path = os.path.join(self._path, 'tmp', uniq) try: os.stat(path) except OSError, e: if e.errno == errno.ENOENT: Maildir._count += 1 return open(path, 'wb+') else: raise else: raise ExternalClashError('Name clash prevented file creation: %s' % path)
def _create_tmp(self): """Create a file in the tmp subdirectory and open and return it.""" now = time.time() hostname = socket.gethostname() if '/' in hostname: hostname = hostname.replace('/', r'\057') if ':' in hostname: hostname = hostname.replace(':', r'\072') uniq = "%s.M%sP%sQ%s.%s" % (int(now), int(now % 1 * 1e6), os.getpid(), Maildir._count, hostname) path = os.path.join(self._path, 'tmp', uniq) try: os.stat(path) except OSError, e: if e.errno == errno.ENOENT: Maildir._count += 1 try: return _create_carefully(path) except OSError, e: if e.errno != errno.EEXIST: raise else: raise else: raise ExternalClashError('Name clash prevented file creation: %s' % path)
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def _create_tmp(self): """Create a file in the tmp subdirectory and open and return it.""" now = time.time() hostname = socket.gethostname() if '/' in hostname: hostname = hostname.replace('/', r'\057') if ':' in hostname: hostname = hostname.replace(':', r'\072') uniq = "%s.M%sP%sQ%s.%s" % (int(now), int(now % 1 * 1e6), os.getpid(), Maildir._count, hostname) path = os.path.join(self._path, 'tmp', uniq) try: os.stat(path) except OSError, e: if e.errno == errno.ENOENT: Maildir._count += 1 return open(path, 'wb+') else: raise else: raise ExternalClashError('Name clash prevented file creation: %s' % path)
def _create_tmp(self): """Create a file in the tmp subdirectory and open and return it.""" now = time.time() hostname = socket.gethostname() if '/' in hostname: hostname = hostname.replace('/', r'\057') if ':' in hostname: hostname = hostname.replace(':', r'\072') uniq = "%s.M%sP%sQ%s.%s" % (int(now), int(now % 1 * 1e6), os.getpid(), Maildir._count, hostname) path = os.path.join(self._path, 'tmp', uniq) try: os.stat(path) except OSError, e: if e.errno == errno.ENOENT: Maildir._count += 1 return open(path, 'wb+') else: raise else: raise ExternalClashError('Name clash prevented file creation: %s' % path)
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def close(self): if self.closehook: apply(self.closehook, self.hookargs) self.closehook = None self.hookargs = None addbase.close(self)
def close(self): if self.closehook: apply(self.closehook, self.hookargs) self.closehook = None self.hookargs = None addbase.close(self)
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def encode(in_file, out_file, name=None, mode=None): """Uuencode file""" # # If in_file is a pathname open it and change defaults # if in_file == '-': in_file = sys.stdin elif type(in_file) == type(''): if name is None: name = os.path.basename(in_file) if mode is None: try: mode = os.stat(in_file)[0] except AttributeError: pass in_file = open(in_file, 'rb') # # Open out_file if it is a pathname # if out_file == '-': out_file = sys.stdout elif type(out_file) == type(''): out_file = open(out_file, 'w') # # Set defaults for name and mode # if name is None: name = '-' if mode is None: mode = 0666 # # Write the data # out_file.write('begin %o %s\n' % ((mode&0777),name)) str = in_file.read(45) while len(str) > 0: out_file.write(binascii.b2a_uu(str)) str = in_file.read(45) out_file.write(' \nend\n')
def encode(in_file, out_file, name=None, mode=None): """Uuencode file""" # # If in_file is a pathname open it and change defaults # if in_file == '-': in_file = sys.stdin elif isinstance(in_file, StringType): if name is None: name = os.path.basename(in_file) if mode is None: try: mode = os.stat(in_file)[0] except AttributeError: pass in_file = open(in_file, 'rb') # # Open out_file if it is a pathname # if out_file == '-': out_file = sys.stdout elif type(out_file) == type(''): out_file = open(out_file, 'w') # # Set defaults for name and mode # if name is None: name = '-' if mode is None: mode = 0666 # # Write the data # out_file.write('begin %o %s\n' % ((mode&0777),name)) str = in_file.read(45) while len(str) > 0: out_file.write(binascii.b2a_uu(str)) str = in_file.read(45) out_file.write(' \nend\n')
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def encode(in_file, out_file, name=None, mode=None): """Uuencode file""" # # If in_file is a pathname open it and change defaults # if in_file == '-': in_file = sys.stdin elif type(in_file) == type(''): if name is None: name = os.path.basename(in_file) if mode is None: try: mode = os.stat(in_file)[0] except AttributeError: pass in_file = open(in_file, 'rb') # # Open out_file if it is a pathname # if out_file == '-': out_file = sys.stdout elif type(out_file) == type(''): out_file = open(out_file, 'w') # # Set defaults for name and mode # if name is None: name = '-' if mode is None: mode = 0666 # # Write the data # out_file.write('begin %o %s\n' % ((mode&0777),name)) str = in_file.read(45) while len(str) > 0: out_file.write(binascii.b2a_uu(str)) str = in_file.read(45) out_file.write(' \nend\n')
def encode(in_file, out_file, name=None, mode=None): """Uuencode file""" # # If in_file is a pathname open it and change defaults # if in_file == '-': in_file = sys.stdin elif type(in_file) == type(''): if name is None: name = os.path.basename(in_file) if mode is None: try: mode = os.stat(in_file)[0] except AttributeError: pass in_file = open(in_file, 'rb') # # Open out_file if it is a pathname # if out_file == '-': out_file = sys.stdout elif isinstance(out_file, StringType): out_file = open(out_file, 'w') # # Set defaults for name and mode # if name is None: name = '-' if mode is None: mode = 0666 # # Write the data # out_file.write('begin %o %s\n' % ((mode&0777),name)) str = in_file.read(45) while len(str) > 0: out_file.write(binascii.b2a_uu(str)) str = in_file.read(45) out_file.write(' \nend\n')
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def decode(in_file, out_file=None, mode=None): """Decode uuencoded file""" # # Open the input file, if needed. # if in_file == '-': in_file = sys.stdin elif type(in_file) == type(''): in_file = open(in_file) # # Read until a begin is encountered or we've exhausted the file # while 1: hdr = in_file.readline() if not hdr: raise Error, 'No valid begin line found in input file' if hdr[:5] != 'begin': continue hdrfields = hdr.split(" ", 2) if len(hdrfields) == 3 and hdrfields[0] == 'begin': try: int(hdrfields[1], 8) break except ValueError: pass if out_file is None: out_file = hdrfields[2].rstrip() if mode is None: mode = int(hdrfields[1], 8) # # Open the output file # if out_file == '-': out_file = sys.stdout elif type(out_file) == type(''): fp = open(out_file, 'wb') try: os.path.chmod(out_file, mode) except AttributeError: pass out_file = fp # # Main decoding loop # s = in_file.readline() while s and s != 'end\n': try: data = binascii.a2b_uu(s) except binascii.Error, v: # Workaround for broken uuencoders by /Fredrik Lundh nbytes = (((ord(s[0])-32) & 63) * 4 + 5) / 3 data = binascii.a2b_uu(s[:nbytes]) sys.stderr.write("Warning: %s\n" % str(v)) out_file.write(data) s = in_file.readline() if not s: raise Error, 'Truncated input file'
def decode(in_file, out_file=None, mode=None, quiet=0): """Decode uuencoded file""" # # Open the input file, if needed. # if in_file == '-': in_file = sys.stdin elif type(in_file) == type(''): in_file = open(in_file) # # Read until a begin is encountered or we've exhausted the file # while 1: hdr = in_file.readline() if not hdr: raise Error, 'No valid begin line found in input file' if hdr[:5] != 'begin': continue hdrfields = hdr.split(" ", 2) if len(hdrfields) == 3 and hdrfields[0] == 'begin': try: int(hdrfields[1], 8) break except ValueError: pass if out_file is None: out_file = hdrfields[2].rstrip() if mode is None: mode = int(hdrfields[1], 8) # # Open the output file # if out_file == '-': out_file = sys.stdout elif type(out_file) == type(''): fp = open(out_file, 'wb') try: os.path.chmod(out_file, mode) except AttributeError: pass out_file = fp # # Main decoding loop # s = in_file.readline() while s and s != 'end\n': try: data = binascii.a2b_uu(s) except binascii.Error, v: # Workaround for broken uuencoders by /Fredrik Lundh nbytes = (((ord(s[0])-32) & 63) * 4 + 5) / 3 data = binascii.a2b_uu(s[:nbytes]) sys.stderr.write("Warning: %s\n" % str(v)) out_file.write(data) s = in_file.readline() if not s: raise Error, 'Truncated input file'
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def decode(in_file, out_file=None, mode=None): """Decode uuencoded file""" # # Open the input file, if needed. # if in_file == '-': in_file = sys.stdin elif type(in_file) == type(''): in_file = open(in_file) # # Read until a begin is encountered or we've exhausted the file # while 1: hdr = in_file.readline() if not hdr: raise Error, 'No valid begin line found in input file' if hdr[:5] != 'begin': continue hdrfields = hdr.split(" ", 2) if len(hdrfields) == 3 and hdrfields[0] == 'begin': try: int(hdrfields[1], 8) break except ValueError: pass if out_file is None: out_file = hdrfields[2].rstrip() if mode is None: mode = int(hdrfields[1], 8) # # Open the output file # if out_file == '-': out_file = sys.stdout elif type(out_file) == type(''): fp = open(out_file, 'wb') try: os.path.chmod(out_file, mode) except AttributeError: pass out_file = fp # # Main decoding loop # s = in_file.readline() while s and s != 'end\n': try: data = binascii.a2b_uu(s) except binascii.Error, v: # Workaround for broken uuencoders by /Fredrik Lundh nbytes = (((ord(s[0])-32) & 63) * 4 + 5) / 3 data = binascii.a2b_uu(s[:nbytes]) sys.stderr.write("Warning: %s\n" % str(v)) out_file.write(data) s = in_file.readline() if not s: raise Error, 'Truncated input file'
def decode(in_file, out_file=None, mode=None): """Decode uuencoded file""" # # Open the input file, if needed. # if in_file == '-': in_file = sys.stdin elif isinstance(in_file, StringType): in_file = open(in_file) # # Read until a begin is encountered or we've exhausted the file # while 1: hdr = in_file.readline() if not hdr: raise Error, 'No valid begin line found in input file' if hdr[:5] != 'begin': continue hdrfields = hdr.split(" ", 2) if len(hdrfields) == 3 and hdrfields[0] == 'begin': try: int(hdrfields[1], 8) break except ValueError: pass if out_file is None: out_file = hdrfields[2].rstrip() if mode is None: mode = int(hdrfields[1], 8) # # Open the output file # if out_file == '-': out_file = sys.stdout elif type(out_file) == type(''): fp = open(out_file, 'wb') try: os.path.chmod(out_file, mode) except AttributeError: pass out_file = fp # # Main decoding loop # s = in_file.readline() while s and s != 'end\n': try: data = binascii.a2b_uu(s) except binascii.Error, v: # Workaround for broken uuencoders by /Fredrik Lundh nbytes = (((ord(s[0])-32) & 63) * 4 + 5) / 3 data = binascii.a2b_uu(s[:nbytes]) sys.stderr.write("Warning: %s\n" % str(v)) out_file.write(data) s = in_file.readline() if not s: raise Error, 'Truncated input file'
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def decode(in_file, out_file=None, mode=None): """Decode uuencoded file""" # # Open the input file, if needed. # if in_file == '-': in_file = sys.stdin elif type(in_file) == type(''): in_file = open(in_file) # # Read until a begin is encountered or we've exhausted the file # while 1: hdr = in_file.readline() if not hdr: raise Error, 'No valid begin line found in input file' if hdr[:5] != 'begin': continue hdrfields = hdr.split(" ", 2) if len(hdrfields) == 3 and hdrfields[0] == 'begin': try: int(hdrfields[1], 8) break except ValueError: pass if out_file is None: out_file = hdrfields[2].rstrip() if mode is None: mode = int(hdrfields[1], 8) # # Open the output file # if out_file == '-': out_file = sys.stdout elif type(out_file) == type(''): fp = open(out_file, 'wb') try: os.path.chmod(out_file, mode) except AttributeError: pass out_file = fp # # Main decoding loop # s = in_file.readline() while s and s != 'end\n': try: data = binascii.a2b_uu(s) except binascii.Error, v: # Workaround for broken uuencoders by /Fredrik Lundh nbytes = (((ord(s[0])-32) & 63) * 4 + 5) / 3 data = binascii.a2b_uu(s[:nbytes]) sys.stderr.write("Warning: %s\n" % str(v)) out_file.write(data) s = in_file.readline() if not s: raise Error, 'Truncated input file'
def decode(in_file, out_file=None, mode=None): """Decode uuencoded file""" # # Open the input file, if needed. # if in_file == '-': in_file = sys.stdin elif type(in_file) == type(''): in_file = open(in_file) # # Read until a begin is encountered or we've exhausted the file # while 1: hdr = in_file.readline() if not hdr: raise Error, 'No valid begin line found in input file' if hdr[:5] != 'begin': continue hdrfields = hdr.split(" ", 2) if len(hdrfields) == 3 and hdrfields[0] == 'begin': try: int(hdrfields[1], 8) break except ValueError: pass if out_file is None: out_file = hdrfields[2].rstrip() if mode is None: mode = int(hdrfields[1], 8) # # Open the output file # if out_file == '-': out_file = sys.stdout elif isinstance(out_file, StringType): fp = open(out_file, 'wb') try: os.path.chmod(out_file, mode) except AttributeError: pass out_file = fp # # Main decoding loop # s = in_file.readline() while s and s != 'end\n': try: data = binascii.a2b_uu(s) except binascii.Error, v: # Workaround for broken uuencoders by /Fredrik Lundh nbytes = (((ord(s[0])-32) & 63) * 4 + 5) / 3 data = binascii.a2b_uu(s[:nbytes]) sys.stderr.write("Warning: %s\n" % str(v)) out_file.write(data) s = in_file.readline() if not s: raise Error, 'Truncated input file'
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def decode(in_file, out_file=None, mode=None): """Decode uuencoded file""" # # Open the input file, if needed. # if in_file == '-': in_file = sys.stdin elif type(in_file) == type(''): in_file = open(in_file) # # Read until a begin is encountered or we've exhausted the file # while 1: hdr = in_file.readline() if not hdr: raise Error, 'No valid begin line found in input file' if hdr[:5] != 'begin': continue hdrfields = hdr.split(" ", 2) if len(hdrfields) == 3 and hdrfields[0] == 'begin': try: int(hdrfields[1], 8) break except ValueError: pass if out_file is None: out_file = hdrfields[2].rstrip() if mode is None: mode = int(hdrfields[1], 8) # # Open the output file # if out_file == '-': out_file = sys.stdout elif type(out_file) == type(''): fp = open(out_file, 'wb') try: os.path.chmod(out_file, mode) except AttributeError: pass out_file = fp # # Main decoding loop # s = in_file.readline() while s and s != 'end\n': try: data = binascii.a2b_uu(s) except binascii.Error, v: # Workaround for broken uuencoders by /Fredrik Lundh nbytes = (((ord(s[0])-32) & 63) * 4 + 5) / 3 data = binascii.a2b_uu(s[:nbytes]) sys.stderr.write("Warning: %s\n" % str(v)) out_file.write(data) s = in_file.readline() if not s: raise Error, 'Truncated input file'
def decode(in_file, out_file=None, mode=None): """Decode uuencoded file""" # # Open the input file, if needed. # if in_file == '-': in_file = sys.stdin elif type(in_file) == type(''): in_file = open(in_file) # # Read until a begin is encountered or we've exhausted the file # while 1: hdr = in_file.readline() if not hdr: raise Error, 'No valid begin line found in input file' if hdr[:5] != 'begin': continue hdrfields = hdr.split(" ", 2) if len(hdrfields) == 3 and hdrfields[0] == 'begin': try: int(hdrfields[1], 8) break except ValueError: pass if out_file is None: out_file = hdrfields[2].rstrip() if mode is None: mode = int(hdrfields[1], 8) # # Open the output file # if out_file == '-': out_file = sys.stdout elif type(out_file) == type(''): fp = open(out_file, 'wb') try: os.path.chmod(out_file, mode) except AttributeError: pass out_file = fp # # Main decoding loop # s = in_file.readline() while s and s.strip() != 'end': try: data = binascii.a2b_uu(s) except binascii.Error, v: # Workaround for broken uuencoders by /Fredrik Lundh nbytes = (((ord(s[0])-32) & 63) * 4 + 5) / 3 data = binascii.a2b_uu(s[:nbytes]) sys.stderr.write("Warning: %s\n" % str(v)) out_file.write(data) s = in_file.readline() if not s: raise Error, 'Truncated input file'
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def decode(in_file, out_file=None, mode=None): """Decode uuencoded file""" # # Open the input file, if needed. # if in_file == '-': in_file = sys.stdin elif type(in_file) == type(''): in_file = open(in_file) # # Read until a begin is encountered or we've exhausted the file # while 1: hdr = in_file.readline() if not hdr: raise Error, 'No valid begin line found in input file' if hdr[:5] != 'begin': continue hdrfields = hdr.split(" ", 2) if len(hdrfields) == 3 and hdrfields[0] == 'begin': try: int(hdrfields[1], 8) break except ValueError: pass if out_file is None: out_file = hdrfields[2].rstrip() if mode is None: mode = int(hdrfields[1], 8) # # Open the output file # if out_file == '-': out_file = sys.stdout elif type(out_file) == type(''): fp = open(out_file, 'wb') try: os.path.chmod(out_file, mode) except AttributeError: pass out_file = fp # # Main decoding loop # s = in_file.readline() while s and s != 'end\n': try: data = binascii.a2b_uu(s) except binascii.Error, v: # Workaround for broken uuencoders by /Fredrik Lundh nbytes = (((ord(s[0])-32) & 63) * 4 + 5) / 3 data = binascii.a2b_uu(s[:nbytes]) sys.stderr.write("Warning: %s\n" % str(v)) out_file.write(data) s = in_file.readline() if not s: raise Error, 'Truncated input file'
def decode(in_file, out_file=None, mode=None): """Decode uuencoded file""" # # Open the input file, if needed. # if in_file == '-': in_file = sys.stdin elif type(in_file) == type(''): in_file = open(in_file) # # Read until a begin is encountered or we've exhausted the file # while 1: hdr = in_file.readline() if not hdr: raise Error, 'No valid begin line found in input file' if hdr[:5] != 'begin': continue hdrfields = hdr.split(" ", 2) if len(hdrfields) == 3 and hdrfields[0] == 'begin': try: int(hdrfields[1], 8) break except ValueError: pass if out_file is None: out_file = hdrfields[2].rstrip() if mode is None: mode = int(hdrfields[1], 8) # # Open the output file # if out_file == '-': out_file = sys.stdout elif type(out_file) == type(''): fp = open(out_file, 'wb') try: os.path.chmod(out_file, mode) except AttributeError: pass out_file = fp # # Main decoding loop # s = in_file.readline() while s and s != 'end\n': try: data = binascii.a2b_uu(s) except binascii.Error, v: # Workaround for broken uuencoders by /Fredrik Lundh nbytes = (((ord(s[0])-32) & 63) * 4 + 5) / 3 data = binascii.a2b_uu(s[:nbytes]) if not quiet: sys.stderr.write("Warning: %s\n" % str(v)) out_file.write(data) s = in_file.readline() if not s: raise Error, 'Truncated input file'
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def test(): """uuencode/uudecode main program""" import getopt dopt = 0 topt = 0 input = sys.stdin output = sys.stdout ok = 1 try: optlist, args = getopt.getopt(sys.argv[1:], 'dt') except getopt.error: ok = 0 if not ok or len(args) > 2: print 'Usage:', sys.argv[0], '[-d] [-t] [input [output]]' print ' -d: Decode (in stead of encode)' print ' -t: data is text, encoded format unix-compatible text' sys.exit(1) for o, a in optlist: if o == '-d': dopt = 1 if o == '-t': topt = 1 if len(args) > 0: input = args[0] if len(args) > 1: output = args[1] if dopt: if topt: if type(output) == type(''): output = open(output, 'w') else: print sys.argv[0], ': cannot do -t to stdout' sys.exit(1) decode(input, output) else: if topt: if type(input) == type(''): input = open(input, 'r') else: print sys.argv[0], ': cannot do -t from stdin' sys.exit(1) encode(input, output)
def test(): """uuencode/uudecode main program""" import getopt dopt = 0 topt = 0 input = sys.stdin output = sys.stdout ok = 1 try: optlist, args = getopt.getopt(sys.argv[1:], 'dt') except getopt.error: ok = 0 if not ok or len(args) > 2: print 'Usage:', sys.argv[0], '[-d] [-t] [input [output]]' print ' -d: Decode (in stead of encode)' print ' -t: data is text, encoded format unix-compatible text' sys.exit(1) for o, a in optlist: if o == '-d': dopt = 1 if o == '-t': topt = 1 if len(args) > 0: input = args[0] if len(args) > 1: output = args[1] if dopt: if topt: if isinstance(output, StringType): output = open(output, 'w') else: print sys.argv[0], ': cannot do -t to stdout' sys.exit(1) decode(input, output) else: if topt: if type(input) == type(''): input = open(input, 'r') else: print sys.argv[0], ': cannot do -t from stdin' sys.exit(1) encode(input, output)
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def test(): """uuencode/uudecode main program""" import getopt dopt = 0 topt = 0 input = sys.stdin output = sys.stdout ok = 1 try: optlist, args = getopt.getopt(sys.argv[1:], 'dt') except getopt.error: ok = 0 if not ok or len(args) > 2: print 'Usage:', sys.argv[0], '[-d] [-t] [input [output]]' print ' -d: Decode (in stead of encode)' print ' -t: data is text, encoded format unix-compatible text' sys.exit(1) for o, a in optlist: if o == '-d': dopt = 1 if o == '-t': topt = 1 if len(args) > 0: input = args[0] if len(args) > 1: output = args[1] if dopt: if topt: if type(output) == type(''): output = open(output, 'w') else: print sys.argv[0], ': cannot do -t to stdout' sys.exit(1) decode(input, output) else: if topt: if type(input) == type(''): input = open(input, 'r') else: print sys.argv[0], ': cannot do -t from stdin' sys.exit(1) encode(input, output)
def test(): """uuencode/uudecode main program""" import getopt dopt = 0 topt = 0 input = sys.stdin output = sys.stdout ok = 1 try: optlist, args = getopt.getopt(sys.argv[1:], 'dt') except getopt.error: ok = 0 if not ok or len(args) > 2: print 'Usage:', sys.argv[0], '[-d] [-t] [input [output]]' print ' -d: Decode (in stead of encode)' print ' -t: data is text, encoded format unix-compatible text' sys.exit(1) for o, a in optlist: if o == '-d': dopt = 1 if o == '-t': topt = 1 if len(args) > 0: input = args[0] if len(args) > 1: output = args[1] if dopt: if topt: if type(output) == type(''): output = open(output, 'w') else: print sys.argv[0], ': cannot do -t to stdout' sys.exit(1) decode(input, output) else: if topt: if isinstance(input, StringType): input = open(input, 'r') else: print sys.argv[0], ': cannot do -t from stdin' sys.exit(1) encode(input, output)
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def test_tzinfo_fromtimestamp(self): import time meth = self.theclass.fromtimestamp ts = time.time() # Ensure it doesn't require tzinfo (i.e., that this doesn't blow up). base = meth(ts) # Try with and without naming the keyword. off42 = FixedOffset(42, "42") another = meth(ts, off42) again = meth(ts, tzinfo=off42) self.failUnless(another.tzinfo is again.tzinfo) self.assertEqual(another.utcoffset(), timedelta(minutes=42)) # Bad argument with and w/o naming the keyword. self.assertRaises(TypeError, meth, ts, 16) self.assertRaises(TypeError, meth, ts, tzinfo=16) # Bad keyword name. self.assertRaises(TypeError, meth, ts, tinfo=off42) # Too many args. self.assertRaises(TypeError, meth, ts, off42, off42) # Too few args. self.assertRaises(TypeError, meth)
def test_tzinfo_fromtimestamp(self): import time meth = self.theclass.fromtimestamp ts = time.time() # Ensure it doesn't require tzinfo (i.e., that this doesn't blow up). base = meth(ts) # Try with and without naming the keyword. off42 = FixedOffset(42, "42") another = meth(ts, off42) again = meth(ts, tz=off42) self.failUnless(another.tzinfo is again.tzinfo) self.assertEqual(another.utcoffset(), timedelta(minutes=42)) # Bad argument with and w/o naming the keyword. self.assertRaises(TypeError, meth, ts, 16) self.assertRaises(TypeError, meth, ts, tzinfo=16) # Bad keyword name. self.assertRaises(TypeError, meth, ts, tinfo=off42) # Too many args. self.assertRaises(TypeError, meth, ts, off42, off42) # Too few args. self.assertRaises(TypeError, meth)
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def request_port(request): host = request.get_host() i = host.find(':') if i >= 0: port = host[i+1:] try: int(port) except ValueError: debug("nonnumeric port: '%s'", port) return None else: port = DEFAULT_HTTP_PORT return port
def request_port(request): host = request.get_host() i = host.find(':') if i >= 0: port = host[i+1:] try: int(port) except ValueError: _debug("nonnumeric port: '%s'", port) return None else: port = DEFAULT_HTTP_PORT return port
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def set_ok(self, cookie, request): """ If you override .set_ok(), be sure to call this method. If it returns false, so should your subclass (assuming your subclass wants to be more strict about which cookies to accept).
def set_ok(self, cookie, request): """ If you override .set_ok(), be sure to call this method. If it returns false, so should your subclass (assuming your subclass wants to be more strict about which cookies to accept).
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def set_ok_version(self, cookie, request): if cookie.version is None: # Version is always set to 0 by parse_ns_headers if it's a Netscape # cookie, so this must be an invalid RFC 2965 cookie. debug(" Set-Cookie2 without version attribute (%s=%s)", cookie.name, cookie.value) return False if cookie.version > 0 and not self.rfc2965: debug(" RFC 2965 cookies are switched off") return False elif cookie.version == 0 and not self.netscape: debug(" Netscape cookies are switched off") return False return True
def set_ok_version(self, cookie, request): if cookie.version is None: # Version is always set to 0 by parse_ns_headers if it's a Netscape # cookie, so this must be an invalid RFC 2965 cookie. _debug(" Set-Cookie2 without version attribute (%s=%s)", cookie.name, cookie.value) return False if cookie.version > 0 and not self.rfc2965: debug(" RFC 2965 cookies are switched off") return False elif cookie.version == 0 and not self.netscape: debug(" Netscape cookies are switched off") return False return True
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def set_ok_version(self, cookie, request): if cookie.version is None: # Version is always set to 0 by parse_ns_headers if it's a Netscape # cookie, so this must be an invalid RFC 2965 cookie. debug(" Set-Cookie2 without version attribute (%s=%s)", cookie.name, cookie.value) return False if cookie.version > 0 and not self.rfc2965: debug(" RFC 2965 cookies are switched off") return False elif cookie.version == 0 and not self.netscape: debug(" Netscape cookies are switched off") return False return True
def set_ok_version(self, cookie, request): if cookie.version is None: # Version is always set to 0 by parse_ns_headers if it's a Netscape # cookie, so this must be an invalid RFC 2965 cookie. debug(" Set-Cookie2 without version attribute (%s=%s)", cookie.name, cookie.value) return False if cookie.version > 0 and not self.rfc2965: _debug(" RFC 2965 cookies are switched off") return False elif cookie.version == 0 and not self.netscape: debug(" Netscape cookies are switched off") return False return True
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def set_ok_version(self, cookie, request): if cookie.version is None: # Version is always set to 0 by parse_ns_headers if it's a Netscape # cookie, so this must be an invalid RFC 2965 cookie. debug(" Set-Cookie2 without version attribute (%s=%s)", cookie.name, cookie.value) return False if cookie.version > 0 and not self.rfc2965: debug(" RFC 2965 cookies are switched off") return False elif cookie.version == 0 and not self.netscape: debug(" Netscape cookies are switched off") return False return True
def set_ok_version(self, cookie, request): if cookie.version is None: # Version is always set to 0 by parse_ns_headers if it's a Netscape # cookie, so this must be an invalid RFC 2965 cookie. debug(" Set-Cookie2 without version attribute (%s=%s)", cookie.name, cookie.value) return False if cookie.version > 0 and not self.rfc2965: debug(" RFC 2965 cookies are switched off") return False elif cookie.version == 0 and not self.netscape: _debug(" Netscape cookies are switched off") return False return True
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def set_ok_verifiability(self, cookie, request): if request.is_unverifiable() and is_third_party(request): if cookie.version > 0 and self.strict_rfc2965_unverifiable: debug(" third-party RFC 2965 cookie during " "unverifiable transaction") return False elif cookie.version == 0 and self.strict_ns_unverifiable: debug(" third-party Netscape cookie during " "unverifiable transaction") return False return True
def set_ok_verifiability(self, cookie, request): if request.is_unverifiable() and is_third_party(request): if cookie.version > 0 and self.strict_rfc2965_unverifiable: _debug(" third-party RFC 2965 cookie during " "unverifiable transaction") return False elif cookie.version == 0 and self.strict_ns_unverifiable: debug(" third-party Netscape cookie during " "unverifiable transaction") return False return True
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def set_ok_verifiability(self, cookie, request): if request.is_unverifiable() and is_third_party(request): if cookie.version > 0 and self.strict_rfc2965_unverifiable: debug(" third-party RFC 2965 cookie during " "unverifiable transaction") return False elif cookie.version == 0 and self.strict_ns_unverifiable: debug(" third-party Netscape cookie during " "unverifiable transaction") return False return True
def set_ok_verifiability(self, cookie, request): if request.is_unverifiable() and is_third_party(request): if cookie.version > 0 and self.strict_rfc2965_unverifiable: debug(" third-party RFC 2965 cookie during " "unverifiable transaction") return False elif cookie.version == 0 and self.strict_ns_unverifiable: _debug(" third-party Netscape cookie during " "unverifiable transaction") return False return True
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def set_ok_name(self, cookie, request): # Try and stop servers setting V0 cookies designed to hack other # servers that know both V0 and V1 protocols. if (cookie.version == 0 and self.strict_ns_set_initial_dollar and cookie.name.startswith("$")): debug(" illegal name (starts with '$'): '%s'", cookie.name) return False return True
def set_ok_name(self, cookie, request): # Try and stop servers setting V0 cookies designed to hack other # servers that know both V0 and V1 protocols. if (cookie.version == 0 and self.strict_ns_set_initial_dollar and cookie.name.startswith("$")): _debug(" illegal name (starts with '$'): '%s'", cookie.name) return False return True
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def set_ok_path(self, cookie, request): if cookie.path_specified: req_path = request_path(request) if ((cookie.version > 0 or (cookie.version == 0 and self.strict_ns_set_path)) and not req_path.startswith(cookie.path)): debug(" path attribute %s is not a prefix of request " "path %s", cookie.path, req_path) return False return True
def set_ok_path(self, cookie, request): if cookie.path_specified: req_path = request_path(request) if ((cookie.version > 0 or (cookie.version == 0 and self.strict_ns_set_path)) and not req_path.startswith(cookie.path)): _debug(" path attribute %s is not a prefix of request " "path %s", cookie.path, req_path) return False return True
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def set_ok_domain(self, cookie, request): if self.is_blocked(cookie.domain): debug(" domain %s is in user block-list", cookie.domain) return False if self.is_not_allowed(cookie.domain): debug(" domain %s is not in user allow-list", cookie.domain) return False if cookie.domain_specified: req_host, erhn = eff_request_host(request) domain = cookie.domain if self.strict_domain and (domain.count(".") >= 2): # XXX This should probably be compared with the Konqueror # (kcookiejar.cpp) and Mozilla implementations, but it's a # losing battle. i = domain.rfind(".") j = domain.rfind(".", 0, i) if j == 0: # domain like .foo.bar tld = domain[i+1:] sld = domain[j+1:i] if sld.lower() in ("co", "ac", "com", "edu", "org", "net", "gov", "mil", "int", "aero", "biz", "cat", "coop", "info", "jobs", "mobi", "museum", "name", "pro", "travel", "eu") and len(tld) == 2: # domain like .co.uk debug(" country-code second level domain %s", domain) return False if domain.startswith("."): undotted_domain = domain[1:] else: undotted_domain = domain embedded_dots = (undotted_domain.find(".") >= 0) if not embedded_dots and domain != ".local": debug(" non-local domain %s contains no embedded dot", domain) return False if cookie.version == 0: if (not erhn.endswith(domain) and (not erhn.startswith(".") and not ("."+erhn).endswith(domain))): debug(" effective request-host %s (even with added " "initial dot) does not end end with %s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainRFC2965Match)): if not domain_match(erhn, domain): debug(" effective request-host %s does not domain-match " "%s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainStrictNoDots)): host_prefix = req_host[:-len(domain)] if (host_prefix.find(".") >= 0 and not IPV4_RE.search(req_host)): debug(" host prefix %s for domain %s contains a dot", host_prefix, domain) return False return True
def set_ok_domain(self, cookie, request): if self.is_blocked(cookie.domain): _debug(" domain %s is in user block-list", cookie.domain) return False if self.is_not_allowed(cookie.domain): debug(" domain %s is not in user allow-list", cookie.domain) return False if cookie.domain_specified: req_host, erhn = eff_request_host(request) domain = cookie.domain if self.strict_domain and (domain.count(".") >= 2): # XXX This should probably be compared with the Konqueror # (kcookiejar.cpp) and Mozilla implementations, but it's a # losing battle. i = domain.rfind(".") j = domain.rfind(".", 0, i) if j == 0: # domain like .foo.bar tld = domain[i+1:] sld = domain[j+1:i] if sld.lower() in ("co", "ac", "com", "edu", "org", "net", "gov", "mil", "int", "aero", "biz", "cat", "coop", "info", "jobs", "mobi", "museum", "name", "pro", "travel", "eu") and len(tld) == 2: # domain like .co.uk debug(" country-code second level domain %s", domain) return False if domain.startswith("."): undotted_domain = domain[1:] else: undotted_domain = domain embedded_dots = (undotted_domain.find(".") >= 0) if not embedded_dots and domain != ".local": debug(" non-local domain %s contains no embedded dot", domain) return False if cookie.version == 0: if (not erhn.endswith(domain) and (not erhn.startswith(".") and not ("."+erhn).endswith(domain))): debug(" effective request-host %s (even with added " "initial dot) does not end end with %s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainRFC2965Match)): if not domain_match(erhn, domain): debug(" effective request-host %s does not domain-match " "%s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainStrictNoDots)): host_prefix = req_host[:-len(domain)] if (host_prefix.find(".") >= 0 and not IPV4_RE.search(req_host)): debug(" host prefix %s for domain %s contains a dot", host_prefix, domain) return False return True
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def set_ok_domain(self, cookie, request): if self.is_blocked(cookie.domain): debug(" domain %s is in user block-list", cookie.domain) return False if self.is_not_allowed(cookie.domain): debug(" domain %s is not in user allow-list", cookie.domain) return False if cookie.domain_specified: req_host, erhn = eff_request_host(request) domain = cookie.domain if self.strict_domain and (domain.count(".") >= 2): # XXX This should probably be compared with the Konqueror # (kcookiejar.cpp) and Mozilla implementations, but it's a # losing battle. i = domain.rfind(".") j = domain.rfind(".", 0, i) if j == 0: # domain like .foo.bar tld = domain[i+1:] sld = domain[j+1:i] if sld.lower() in ("co", "ac", "com", "edu", "org", "net", "gov", "mil", "int", "aero", "biz", "cat", "coop", "info", "jobs", "mobi", "museum", "name", "pro", "travel", "eu") and len(tld) == 2: # domain like .co.uk debug(" country-code second level domain %s", domain) return False if domain.startswith("."): undotted_domain = domain[1:] else: undotted_domain = domain embedded_dots = (undotted_domain.find(".") >= 0) if not embedded_dots and domain != ".local": debug(" non-local domain %s contains no embedded dot", domain) return False if cookie.version == 0: if (not erhn.endswith(domain) and (not erhn.startswith(".") and not ("."+erhn).endswith(domain))): debug(" effective request-host %s (even with added " "initial dot) does not end end with %s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainRFC2965Match)): if not domain_match(erhn, domain): debug(" effective request-host %s does not domain-match " "%s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainStrictNoDots)): host_prefix = req_host[:-len(domain)] if (host_prefix.find(".") >= 0 and not IPV4_RE.search(req_host)): debug(" host prefix %s for domain %s contains a dot", host_prefix, domain) return False return True
def set_ok_domain(self, cookie, request): if self.is_blocked(cookie.domain): debug(" domain %s is in user block-list", cookie.domain) return False if self.is_not_allowed(cookie.domain): _debug(" domain %s is not in user allow-list", cookie.domain) return False if cookie.domain_specified: req_host, erhn = eff_request_host(request) domain = cookie.domain if self.strict_domain and (domain.count(".") >= 2): # XXX This should probably be compared with the Konqueror # (kcookiejar.cpp) and Mozilla implementations, but it's a # losing battle. i = domain.rfind(".") j = domain.rfind(".", 0, i) if j == 0: # domain like .foo.bar tld = domain[i+1:] sld = domain[j+1:i] if sld.lower() in ("co", "ac", "com", "edu", "org", "net", "gov", "mil", "int", "aero", "biz", "cat", "coop", "info", "jobs", "mobi", "museum", "name", "pro", "travel", "eu") and len(tld) == 2: # domain like .co.uk debug(" country-code second level domain %s", domain) return False if domain.startswith("."): undotted_domain = domain[1:] else: undotted_domain = domain embedded_dots = (undotted_domain.find(".") >= 0) if not embedded_dots and domain != ".local": debug(" non-local domain %s contains no embedded dot", domain) return False if cookie.version == 0: if (not erhn.endswith(domain) and (not erhn.startswith(".") and not ("."+erhn).endswith(domain))): debug(" effective request-host %s (even with added " "initial dot) does not end end with %s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainRFC2965Match)): if not domain_match(erhn, domain): debug(" effective request-host %s does not domain-match " "%s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainStrictNoDots)): host_prefix = req_host[:-len(domain)] if (host_prefix.find(".") >= 0 and not IPV4_RE.search(req_host)): debug(" host prefix %s for domain %s contains a dot", host_prefix, domain) return False return True
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def set_ok_domain(self, cookie, request): if self.is_blocked(cookie.domain): debug(" domain %s is in user block-list", cookie.domain) return False if self.is_not_allowed(cookie.domain): debug(" domain %s is not in user allow-list", cookie.domain) return False if cookie.domain_specified: req_host, erhn = eff_request_host(request) domain = cookie.domain if self.strict_domain and (domain.count(".") >= 2): # XXX This should probably be compared with the Konqueror # (kcookiejar.cpp) and Mozilla implementations, but it's a # losing battle. i = domain.rfind(".") j = domain.rfind(".", 0, i) if j == 0: # domain like .foo.bar tld = domain[i+1:] sld = domain[j+1:i] if sld.lower() in ("co", "ac", "com", "edu", "org", "net", "gov", "mil", "int", "aero", "biz", "cat", "coop", "info", "jobs", "mobi", "museum", "name", "pro", "travel", "eu") and len(tld) == 2: # domain like .co.uk debug(" country-code second level domain %s", domain) return False if domain.startswith("."): undotted_domain = domain[1:] else: undotted_domain = domain embedded_dots = (undotted_domain.find(".") >= 0) if not embedded_dots and domain != ".local": debug(" non-local domain %s contains no embedded dot", domain) return False if cookie.version == 0: if (not erhn.endswith(domain) and (not erhn.startswith(".") and not ("."+erhn).endswith(domain))): debug(" effective request-host %s (even with added " "initial dot) does not end end with %s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainRFC2965Match)): if not domain_match(erhn, domain): debug(" effective request-host %s does not domain-match " "%s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainStrictNoDots)): host_prefix = req_host[:-len(domain)] if (host_prefix.find(".") >= 0 and not IPV4_RE.search(req_host)): debug(" host prefix %s for domain %s contains a dot", host_prefix, domain) return False return True
def set_ok_domain(self, cookie, request): if self.is_blocked(cookie.domain): debug(" domain %s is in user block-list", cookie.domain) return False if self.is_not_allowed(cookie.domain): debug(" domain %s is not in user allow-list", cookie.domain) return False if cookie.domain_specified: req_host, erhn = eff_request_host(request) domain = cookie.domain if self.strict_domain and (domain.count(".") >= 2): # XXX This should probably be compared with the Konqueror # (kcookiejar.cpp) and Mozilla implementations, but it's a # losing battle. i = domain.rfind(".") j = domain.rfind(".", 0, i) if j == 0: # domain like .foo.bar tld = domain[i+1:] sld = domain[j+1:i] if sld.lower() in ("co", "ac", "com", "edu", "org", "net", "gov", "mil", "int", "aero", "biz", "cat", "coop", "info", "jobs", "mobi", "museum", "name", "pro", "travel", "eu") and len(tld) == 2: # domain like .co.uk _debug(" country-code second level domain %s", domain) return False if domain.startswith("."): undotted_domain = domain[1:] else: undotted_domain = domain embedded_dots = (undotted_domain.find(".") >= 0) if not embedded_dots and domain != ".local": debug(" non-local domain %s contains no embedded dot", domain) return False if cookie.version == 0: if (not erhn.endswith(domain) and (not erhn.startswith(".") and not ("."+erhn).endswith(domain))): debug(" effective request-host %s (even with added " "initial dot) does not end end with %s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainRFC2965Match)): if not domain_match(erhn, domain): debug(" effective request-host %s does not domain-match " "%s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainStrictNoDots)): host_prefix = req_host[:-len(domain)] if (host_prefix.find(".") >= 0 and not IPV4_RE.search(req_host)): debug(" host prefix %s for domain %s contains a dot", host_prefix, domain) return False return True
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def set_ok_domain(self, cookie, request): if self.is_blocked(cookie.domain): debug(" domain %s is in user block-list", cookie.domain) return False if self.is_not_allowed(cookie.domain): debug(" domain %s is not in user allow-list", cookie.domain) return False if cookie.domain_specified: req_host, erhn = eff_request_host(request) domain = cookie.domain if self.strict_domain and (domain.count(".") >= 2): # XXX This should probably be compared with the Konqueror # (kcookiejar.cpp) and Mozilla implementations, but it's a # losing battle. i = domain.rfind(".") j = domain.rfind(".", 0, i) if j == 0: # domain like .foo.bar tld = domain[i+1:] sld = domain[j+1:i] if sld.lower() in ("co", "ac", "com", "edu", "org", "net", "gov", "mil", "int", "aero", "biz", "cat", "coop", "info", "jobs", "mobi", "museum", "name", "pro", "travel", "eu") and len(tld) == 2: # domain like .co.uk debug(" country-code second level domain %s", domain) return False if domain.startswith("."): undotted_domain = domain[1:] else: undotted_domain = domain embedded_dots = (undotted_domain.find(".") >= 0) if not embedded_dots and domain != ".local": debug(" non-local domain %s contains no embedded dot", domain) return False if cookie.version == 0: if (not erhn.endswith(domain) and (not erhn.startswith(".") and not ("."+erhn).endswith(domain))): debug(" effective request-host %s (even with added " "initial dot) does not end end with %s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainRFC2965Match)): if not domain_match(erhn, domain): debug(" effective request-host %s does not domain-match " "%s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainStrictNoDots)): host_prefix = req_host[:-len(domain)] if (host_prefix.find(".") >= 0 and not IPV4_RE.search(req_host)): debug(" host prefix %s for domain %s contains a dot", host_prefix, domain) return False return True
def set_ok_domain(self, cookie, request): if self.is_blocked(cookie.domain): debug(" domain %s is in user block-list", cookie.domain) return False if self.is_not_allowed(cookie.domain): debug(" domain %s is not in user allow-list", cookie.domain) return False if cookie.domain_specified: req_host, erhn = eff_request_host(request) domain = cookie.domain if self.strict_domain and (domain.count(".") >= 2): # XXX This should probably be compared with the Konqueror # (kcookiejar.cpp) and Mozilla implementations, but it's a # losing battle. i = domain.rfind(".") j = domain.rfind(".", 0, i) if j == 0: # domain like .foo.bar tld = domain[i+1:] sld = domain[j+1:i] if sld.lower() in ("co", "ac", "com", "edu", "org", "net", "gov", "mil", "int", "aero", "biz", "cat", "coop", "info", "jobs", "mobi", "museum", "name", "pro", "travel", "eu") and len(tld) == 2: # domain like .co.uk debug(" country-code second level domain %s", domain) return False if domain.startswith("."): undotted_domain = domain[1:] else: undotted_domain = domain embedded_dots = (undotted_domain.find(".") >= 0) if not embedded_dots and domain != ".local": _debug(" non-local domain %s contains no embedded dot", domain) return False if cookie.version == 0: if (not erhn.endswith(domain) and (not erhn.startswith(".") and not ("."+erhn).endswith(domain))): debug(" effective request-host %s (even with added " "initial dot) does not end end with %s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainRFC2965Match)): if not domain_match(erhn, domain): debug(" effective request-host %s does not domain-match " "%s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainStrictNoDots)): host_prefix = req_host[:-len(domain)] if (host_prefix.find(".") >= 0 and not IPV4_RE.search(req_host)): debug(" host prefix %s for domain %s contains a dot", host_prefix, domain) return False return True
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def set_ok_domain(self, cookie, request): if self.is_blocked(cookie.domain): debug(" domain %s is in user block-list", cookie.domain) return False if self.is_not_allowed(cookie.domain): debug(" domain %s is not in user allow-list", cookie.domain) return False if cookie.domain_specified: req_host, erhn = eff_request_host(request) domain = cookie.domain if self.strict_domain and (domain.count(".") >= 2): # XXX This should probably be compared with the Konqueror # (kcookiejar.cpp) and Mozilla implementations, but it's a # losing battle. i = domain.rfind(".") j = domain.rfind(".", 0, i) if j == 0: # domain like .foo.bar tld = domain[i+1:] sld = domain[j+1:i] if sld.lower() in ("co", "ac", "com", "edu", "org", "net", "gov", "mil", "int", "aero", "biz", "cat", "coop", "info", "jobs", "mobi", "museum", "name", "pro", "travel", "eu") and len(tld) == 2: # domain like .co.uk debug(" country-code second level domain %s", domain) return False if domain.startswith("."): undotted_domain = domain[1:] else: undotted_domain = domain embedded_dots = (undotted_domain.find(".") >= 0) if not embedded_dots and domain != ".local": debug(" non-local domain %s contains no embedded dot", domain) return False if cookie.version == 0: if (not erhn.endswith(domain) and (not erhn.startswith(".") and not ("."+erhn).endswith(domain))): debug(" effective request-host %s (even with added " "initial dot) does not end end with %s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainRFC2965Match)): if not domain_match(erhn, domain): debug(" effective request-host %s does not domain-match " "%s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainStrictNoDots)): host_prefix = req_host[:-len(domain)] if (host_prefix.find(".") >= 0 and not IPV4_RE.search(req_host)): debug(" host prefix %s for domain %s contains a dot", host_prefix, domain) return False return True
def set_ok_domain(self, cookie, request): if self.is_blocked(cookie.domain): debug(" domain %s is in user block-list", cookie.domain) return False if self.is_not_allowed(cookie.domain): debug(" domain %s is not in user allow-list", cookie.domain) return False if cookie.domain_specified: req_host, erhn = eff_request_host(request) domain = cookie.domain if self.strict_domain and (domain.count(".") >= 2): # XXX This should probably be compared with the Konqueror # (kcookiejar.cpp) and Mozilla implementations, but it's a # losing battle. i = domain.rfind(".") j = domain.rfind(".", 0, i) if j == 0: # domain like .foo.bar tld = domain[i+1:] sld = domain[j+1:i] if sld.lower() in ("co", "ac", "com", "edu", "org", "net", "gov", "mil", "int", "aero", "biz", "cat", "coop", "info", "jobs", "mobi", "museum", "name", "pro", "travel", "eu") and len(tld) == 2: # domain like .co.uk debug(" country-code second level domain %s", domain) return False if domain.startswith("."): undotted_domain = domain[1:] else: undotted_domain = domain embedded_dots = (undotted_domain.find(".") >= 0) if not embedded_dots and domain != ".local": debug(" non-local domain %s contains no embedded dot", domain) return False if cookie.version == 0: if (not erhn.endswith(domain) and (not erhn.startswith(".") and not ("."+erhn).endswith(domain))): _debug(" effective request-host %s (even with added " "initial dot) does not end end with %s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainRFC2965Match)): if not domain_match(erhn, domain): debug(" effective request-host %s does not domain-match " "%s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainStrictNoDots)): host_prefix = req_host[:-len(domain)] if (host_prefix.find(".") >= 0 and not IPV4_RE.search(req_host)): debug(" host prefix %s for domain %s contains a dot", host_prefix, domain) return False return True
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def set_ok_domain(self, cookie, request): if self.is_blocked(cookie.domain): debug(" domain %s is in user block-list", cookie.domain) return False if self.is_not_allowed(cookie.domain): debug(" domain %s is not in user allow-list", cookie.domain) return False if cookie.domain_specified: req_host, erhn = eff_request_host(request) domain = cookie.domain if self.strict_domain and (domain.count(".") >= 2): # XXX This should probably be compared with the Konqueror # (kcookiejar.cpp) and Mozilla implementations, but it's a # losing battle. i = domain.rfind(".") j = domain.rfind(".", 0, i) if j == 0: # domain like .foo.bar tld = domain[i+1:] sld = domain[j+1:i] if sld.lower() in ("co", "ac", "com", "edu", "org", "net", "gov", "mil", "int", "aero", "biz", "cat", "coop", "info", "jobs", "mobi", "museum", "name", "pro", "travel", "eu") and len(tld) == 2: # domain like .co.uk debug(" country-code second level domain %s", domain) return False if domain.startswith("."): undotted_domain = domain[1:] else: undotted_domain = domain embedded_dots = (undotted_domain.find(".") >= 0) if not embedded_dots and domain != ".local": debug(" non-local domain %s contains no embedded dot", domain) return False if cookie.version == 0: if (not erhn.endswith(domain) and (not erhn.startswith(".") and not ("."+erhn).endswith(domain))): debug(" effective request-host %s (even with added " "initial dot) does not end end with %s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainRFC2965Match)): if not domain_match(erhn, domain): debug(" effective request-host %s does not domain-match " "%s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainStrictNoDots)): host_prefix = req_host[:-len(domain)] if (host_prefix.find(".") >= 0 and not IPV4_RE.search(req_host)): debug(" host prefix %s for domain %s contains a dot", host_prefix, domain) return False return True
def set_ok_domain(self, cookie, request): if self.is_blocked(cookie.domain): debug(" domain %s is in user block-list", cookie.domain) return False if self.is_not_allowed(cookie.domain): debug(" domain %s is not in user allow-list", cookie.domain) return False if cookie.domain_specified: req_host, erhn = eff_request_host(request) domain = cookie.domain if self.strict_domain and (domain.count(".") >= 2): # XXX This should probably be compared with the Konqueror # (kcookiejar.cpp) and Mozilla implementations, but it's a # losing battle. i = domain.rfind(".") j = domain.rfind(".", 0, i) if j == 0: # domain like .foo.bar tld = domain[i+1:] sld = domain[j+1:i] if sld.lower() in ("co", "ac", "com", "edu", "org", "net", "gov", "mil", "int", "aero", "biz", "cat", "coop", "info", "jobs", "mobi", "museum", "name", "pro", "travel", "eu") and len(tld) == 2: # domain like .co.uk debug(" country-code second level domain %s", domain) return False if domain.startswith("."): undotted_domain = domain[1:] else: undotted_domain = domain embedded_dots = (undotted_domain.find(".") >= 0) if not embedded_dots and domain != ".local": debug(" non-local domain %s contains no embedded dot", domain) return False if cookie.version == 0: if (not erhn.endswith(domain) and (not erhn.startswith(".") and not ("."+erhn).endswith(domain))): debug(" effective request-host %s (even with added " "initial dot) does not end end with %s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainRFC2965Match)): if not domain_match(erhn, domain): _debug(" effective request-host %s does not domain-match " "%s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainStrictNoDots)): host_prefix = req_host[:-len(domain)] if (host_prefix.find(".") >= 0 and not IPV4_RE.search(req_host)): debug(" host prefix %s for domain %s contains a dot", host_prefix, domain) return False return True
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def set_ok_domain(self, cookie, request): if self.is_blocked(cookie.domain): debug(" domain %s is in user block-list", cookie.domain) return False if self.is_not_allowed(cookie.domain): debug(" domain %s is not in user allow-list", cookie.domain) return False if cookie.domain_specified: req_host, erhn = eff_request_host(request) domain = cookie.domain if self.strict_domain and (domain.count(".") >= 2): # XXX This should probably be compared with the Konqueror # (kcookiejar.cpp) and Mozilla implementations, but it's a # losing battle. i = domain.rfind(".") j = domain.rfind(".", 0, i) if j == 0: # domain like .foo.bar tld = domain[i+1:] sld = domain[j+1:i] if sld.lower() in ("co", "ac", "com", "edu", "org", "net", "gov", "mil", "int", "aero", "biz", "cat", "coop", "info", "jobs", "mobi", "museum", "name", "pro", "travel", "eu") and len(tld) == 2: # domain like .co.uk debug(" country-code second level domain %s", domain) return False if domain.startswith("."): undotted_domain = domain[1:] else: undotted_domain = domain embedded_dots = (undotted_domain.find(".") >= 0) if not embedded_dots and domain != ".local": debug(" non-local domain %s contains no embedded dot", domain) return False if cookie.version == 0: if (not erhn.endswith(domain) and (not erhn.startswith(".") and not ("."+erhn).endswith(domain))): debug(" effective request-host %s (even with added " "initial dot) does not end end with %s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainRFC2965Match)): if not domain_match(erhn, domain): debug(" effective request-host %s does not domain-match " "%s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainStrictNoDots)): host_prefix = req_host[:-len(domain)] if (host_prefix.find(".") >= 0 and not IPV4_RE.search(req_host)): debug(" host prefix %s for domain %s contains a dot", host_prefix, domain) return False return True
def set_ok_domain(self, cookie, request): if self.is_blocked(cookie.domain): debug(" domain %s is in user block-list", cookie.domain) return False if self.is_not_allowed(cookie.domain): debug(" domain %s is not in user allow-list", cookie.domain) return False if cookie.domain_specified: req_host, erhn = eff_request_host(request) domain = cookie.domain if self.strict_domain and (domain.count(".") >= 2): # XXX This should probably be compared with the Konqueror # (kcookiejar.cpp) and Mozilla implementations, but it's a # losing battle. i = domain.rfind(".") j = domain.rfind(".", 0, i) if j == 0: # domain like .foo.bar tld = domain[i+1:] sld = domain[j+1:i] if sld.lower() in ("co", "ac", "com", "edu", "org", "net", "gov", "mil", "int", "aero", "biz", "cat", "coop", "info", "jobs", "mobi", "museum", "name", "pro", "travel", "eu") and len(tld) == 2: # domain like .co.uk debug(" country-code second level domain %s", domain) return False if domain.startswith("."): undotted_domain = domain[1:] else: undotted_domain = domain embedded_dots = (undotted_domain.find(".") >= 0) if not embedded_dots and domain != ".local": debug(" non-local domain %s contains no embedded dot", domain) return False if cookie.version == 0: if (not erhn.endswith(domain) and (not erhn.startswith(".") and not ("."+erhn).endswith(domain))): debug(" effective request-host %s (even with added " "initial dot) does not end end with %s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainRFC2965Match)): if not domain_match(erhn, domain): debug(" effective request-host %s does not domain-match " "%s", erhn, domain) return False if (cookie.version > 0 or (self.strict_ns_domain & self.DomainStrictNoDots)): host_prefix = req_host[:-len(domain)] if (host_prefix.find(".") >= 0 and not IPV4_RE.search(req_host)): _debug(" host prefix %s for domain %s contains a dot", host_prefix, domain) return False return True
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def set_ok_port(self, cookie, request): if cookie.port_specified: req_port = request_port(request) if req_port is None: req_port = "80" else: req_port = str(req_port) for p in cookie.port.split(","): try: int(p) except ValueError: debug(" bad port %s (not numeric)", p) return False if p == req_port: break else: debug(" request port (%s) not found in %s", req_port, cookie.port) return False return True
def set_ok_port(self, cookie, request): if cookie.port_specified: req_port = request_port(request) if req_port is None: req_port = "80" else: req_port = str(req_port) for p in cookie.port.split(","): try: int(p) except ValueError: _debug(" bad port %s (not numeric)", p) return False if p == req_port: break else: debug(" request port (%s) not found in %s", req_port, cookie.port) return False return True
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def set_ok_port(self, cookie, request): if cookie.port_specified: req_port = request_port(request) if req_port is None: req_port = "80" else: req_port = str(req_port) for p in cookie.port.split(","): try: int(p) except ValueError: debug(" bad port %s (not numeric)", p) return False if p == req_port: break else: debug(" request port (%s) not found in %s", req_port, cookie.port) return False return True
def set_ok_port(self, cookie, request): if cookie.port_specified: req_port = request_port(request) if req_port is None: req_port = "80" else: req_port = str(req_port) for p in cookie.port.split(","): try: int(p) except ValueError: debug(" bad port %s (not numeric)", p) return False if p == req_port: break else: _debug(" request port (%s) not found in %s", req_port, cookie.port) return False return True
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def return_ok(self, cookie, request): """ If you override .return_ok(), be sure to call this method. If it returns false, so should your subclass (assuming your subclass wants to be more strict about which cookies to return).
def return_ok(self, cookie, request): """ If you override .return_ok(), be sure to call this method. If it returns false, so should your subclass (assuming your subclass wants to be more strict about which cookies to return).
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def return_ok_version(self, cookie, request): if cookie.version > 0 and not self.rfc2965: debug(" RFC 2965 cookies are switched off") return False elif cookie.version == 0 and not self.netscape: debug(" Netscape cookies are switched off") return False return True
def return_ok_version(self, cookie, request): if cookie.version > 0 and not self.rfc2965: _debug(" RFC 2965 cookies are switched off") return False elif cookie.version == 0 and not self.netscape: debug(" Netscape cookies are switched off") return False return True
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def return_ok_version(self, cookie, request): if cookie.version > 0 and not self.rfc2965: debug(" RFC 2965 cookies are switched off") return False elif cookie.version == 0 and not self.netscape: debug(" Netscape cookies are switched off") return False return True
def return_ok_version(self, cookie, request): if cookie.version > 0 and not self.rfc2965: debug(" RFC 2965 cookies are switched off") return False elif cookie.version == 0 and not self.netscape: _debug(" Netscape cookies are switched off") return False return True
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def return_ok_verifiability(self, cookie, request): if request.is_unverifiable() and is_third_party(request): if cookie.version > 0 and self.strict_rfc2965_unverifiable: debug(" third-party RFC 2965 cookie during unverifiable " "transaction") return False elif cookie.version == 0 and self.strict_ns_unverifiable: debug(" third-party Netscape cookie during unverifiable " "transaction") return False return True
def return_ok_verifiability(self, cookie, request): if request.is_unverifiable() and is_third_party(request): if cookie.version > 0 and self.strict_rfc2965_unverifiable: _debug(" third-party RFC 2965 cookie during unverifiable " "transaction") return False elif cookie.version == 0 and self.strict_ns_unverifiable: debug(" third-party Netscape cookie during unverifiable " "transaction") return False return True
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def return_ok_verifiability(self, cookie, request): if request.is_unverifiable() and is_third_party(request): if cookie.version > 0 and self.strict_rfc2965_unverifiable: debug(" third-party RFC 2965 cookie during unverifiable " "transaction") return False elif cookie.version == 0 and self.strict_ns_unverifiable: debug(" third-party Netscape cookie during unverifiable " "transaction") return False return True
def return_ok_verifiability(self, cookie, request): if request.is_unverifiable() and is_third_party(request): if cookie.version > 0 and self.strict_rfc2965_unverifiable: debug(" third-party RFC 2965 cookie during unverifiable " "transaction") return False elif cookie.version == 0 and self.strict_ns_unverifiable: _debug(" third-party Netscape cookie during unverifiable " "transaction") return False return True
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def return_ok_secure(self, cookie, request): if cookie.secure and request.get_type() != "https": debug(" secure cookie with non-secure request") return False return True
def return_ok_secure(self, cookie, request): if cookie.secure and request.get_type() != "https": _debug(" secure cookie with non-secure request") return False return True
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def return_ok_expires(self, cookie, request): if cookie.is_expired(self._now): debug(" cookie expired") return False return True
def return_ok_expires(self, cookie, request): if cookie.is_expired(self._now): _debug(" cookie expired") return False return True
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def return_ok_port(self, cookie, request): if cookie.port: req_port = request_port(request) if req_port is None: req_port = "80" for p in cookie.port.split(","): if p == req_port: break else: debug(" request port %s does not match cookie port %s", req_port, cookie.port) return False return True
def return_ok_port(self, cookie, request): if cookie.port: req_port = request_port(request) if req_port is None: req_port = "80" for p in cookie.port.split(","): if p == req_port: break else: _debug(" request port %s does not match cookie port %s", req_port, cookie.port) return False return True
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def return_ok_domain(self, cookie, request): req_host, erhn = eff_request_host(request) domain = cookie.domain
def return_ok_domain(self, cookie, request): req_host, erhn = eff_request_host(request) domain = cookie.domain
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def return_ok_domain(self, cookie, request): req_host, erhn = eff_request_host(request) domain = cookie.domain
def return_ok_domain(self, cookie, request): req_host, erhn = eff_request_host(request) domain = cookie.domain
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def return_ok_domain(self, cookie, request): req_host, erhn = eff_request_host(request) domain = cookie.domain
def return_ok_domain(self, cookie, request): req_host, erhn = eff_request_host(request) domain = cookie.domain
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def domain_return_ok(self, domain, request): # Liberal check of. This is here as an optimization to avoid # having to load lots of MSIE cookie files unless necessary. req_host, erhn = eff_request_host(request) if not req_host.startswith("."): req_host = "."+req_host if not erhn.startswith("."): erhn = "."+erhn if not (req_host.endswith(domain) or erhn.endswith(domain)): #debug(" request domain %s does not match cookie domain %s", # req_host, domain) return False
def domain_return_ok(self, domain, request): # Liberal check of. This is here as an optimization to avoid # having to load lots of MSIE cookie files unless necessary. req_host, erhn = eff_request_host(request) if not req_host.startswith("."): req_host = "."+req_host if not erhn.startswith("."): erhn = "."+erhn if not (req_host.endswith(domain) or erhn.endswith(domain)): #debug(" request domain %s does not match cookie domain %s", # req_host, domain) return False
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def domain_return_ok(self, domain, request): # Liberal check of. This is here as an optimization to avoid # having to load lots of MSIE cookie files unless necessary. req_host, erhn = eff_request_host(request) if not req_host.startswith("."): req_host = "."+req_host if not erhn.startswith("."): erhn = "."+erhn if not (req_host.endswith(domain) or erhn.endswith(domain)): #debug(" request domain %s does not match cookie domain %s", # req_host, domain) return False
def domain_return_ok(self, domain, request): # Liberal check of. This is here as an optimization to avoid # having to load lots of MSIE cookie files unless necessary. req_host, erhn = eff_request_host(request) if not req_host.startswith("."): req_host = "."+req_host if not erhn.startswith("."): erhn = "."+erhn if not (req_host.endswith(domain) or erhn.endswith(domain)): #debug(" request domain %s does not match cookie domain %s", # req_host, domain) return False
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def domain_return_ok(self, domain, request): # Liberal check of. This is here as an optimization to avoid # having to load lots of MSIE cookie files unless necessary. req_host, erhn = eff_request_host(request) if not req_host.startswith("."): req_host = "."+req_host if not erhn.startswith("."): erhn = "."+erhn if not (req_host.endswith(domain) or erhn.endswith(domain)): #debug(" request domain %s does not match cookie domain %s", # req_host, domain) return False
def domain_return_ok(self, domain, request): # Liberal check of. This is here as an optimization to avoid # having to load lots of MSIE cookie files unless necessary. req_host, erhn = eff_request_host(request) if not req_host.startswith("."): req_host = "."+req_host if not erhn.startswith("."): erhn = "."+erhn if not (req_host.endswith(domain) or erhn.endswith(domain)): #debug(" request domain %s does not match cookie domain %s", # req_host, domain) return False
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def path_return_ok(self, path, request): debug("- checking cookie path=%s", path) req_path = request_path(request) if not req_path.startswith(path): debug(" %s does not path-match %s", req_path, path) return False return True
def path_return_ok(self, path, request): _debug("- checking cookie path=%s", path) req_path = request_path(request) if not req_path.startswith(path): debug(" %s does not path-match %s", req_path, path) return False return True
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def path_return_ok(self, path, request): debug("- checking cookie path=%s", path) req_path = request_path(request) if not req_path.startswith(path): debug(" %s does not path-match %s", req_path, path) return False return True
def path_return_ok(self, path, request): debug("- checking cookie path=%s", path) req_path = request_path(request) if not req_path.startswith(path): _debug(" %s does not path-match %s", req_path, path) return False return True
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def _cookies_for_domain(self, domain, request): cookies = [] if not self._policy.domain_return_ok(domain, request): return [] debug("Checking %s for cookies to return", domain) cookies_by_path = self._cookies[domain] for path in cookies_by_path.keys(): if not self._policy.path_return_ok(path, request): continue cookies_by_name = cookies_by_path[path] for cookie in cookies_by_name.values(): if not self._policy.return_ok(cookie, request): debug(" not returning cookie") continue debug(" it's a match") cookies.append(cookie) return cookies
def _cookies_for_domain(self, domain, request): cookies = [] if not self._policy.domain_return_ok(domain, request): return [] _debug("Checking %s for cookies to return", domain) cookies_by_path = self._cookies[domain] for path in cookies_by_path.keys(): if not self._policy.path_return_ok(path, request): continue cookies_by_name = cookies_by_path[path] for cookie in cookies_by_name.values(): if not self._policy.return_ok(cookie, request): debug(" not returning cookie") continue debug(" it's a match") cookies.append(cookie) return cookies
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def _cookies_for_domain(self, domain, request): cookies = [] if not self._policy.domain_return_ok(domain, request): return [] debug("Checking %s for cookies to return", domain) cookies_by_path = self._cookies[domain] for path in cookies_by_path.keys(): if not self._policy.path_return_ok(path, request): continue cookies_by_name = cookies_by_path[path] for cookie in cookies_by_name.values(): if not self._policy.return_ok(cookie, request): debug(" not returning cookie") continue debug(" it's a match") cookies.append(cookie) return cookies
def _cookies_for_domain(self, domain, request): cookies = [] if not self._policy.domain_return_ok(domain, request): return [] debug("Checking %s for cookies to return", domain) cookies_by_path = self._cookies[domain] for path in cookies_by_path.keys(): if not self._policy.path_return_ok(path, request): continue cookies_by_name = cookies_by_path[path] for cookie in cookies_by_name.values(): if not self._policy.return_ok(cookie, request): _debug(" not returning cookie") continue debug(" it's a match") cookies.append(cookie) return cookies
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def _cookies_for_domain(self, domain, request): cookies = [] if not self._policy.domain_return_ok(domain, request): return [] debug("Checking %s for cookies to return", domain) cookies_by_path = self._cookies[domain] for path in cookies_by_path.keys(): if not self._policy.path_return_ok(path, request): continue cookies_by_name = cookies_by_path[path] for cookie in cookies_by_name.values(): if not self._policy.return_ok(cookie, request): debug(" not returning cookie") continue debug(" it's a match") cookies.append(cookie) return cookies
def _cookies_for_domain(self, domain, request): cookies = [] if not self._policy.domain_return_ok(domain, request): return [] debug("Checking %s for cookies to return", domain) cookies_by_path = self._cookies[domain] for path in cookies_by_path.keys(): if not self._policy.path_return_ok(path, request): continue cookies_by_name = cookies_by_path[path] for cookie in cookies_by_name.values(): if not self._policy.return_ok(cookie, request): debug(" not returning cookie") continue _debug(" it's a match") cookies.append(cookie) return cookies
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def add_cookie_header(self, request): """Add correct Cookie: header to request (urllib2.Request object).
def add_cookie_header(self, request): """Add correct Cookie: header to request (urllib2.Request object).
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def _normalized_cookie_tuples(self, attrs_set): """Return list of tuples containing normalised cookie information.
def _normalized_cookie_tuples(self, attrs_set): """Return list of tuples containing normalised cookie information.
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def _normalized_cookie_tuples(self, attrs_set): """Return list of tuples containing normalised cookie information.
def _normalized_cookie_tuples(self, attrs_set): """Return list of tuples containing normalised cookie information.
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def _normalized_cookie_tuples(self, attrs_set): """Return list of tuples containing normalised cookie information.
def _normalized_cookie_tuples(self, attrs_set): """Return list of tuples containing normalised cookie information.
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def _normalized_cookie_tuples(self, attrs_set): """Return list of tuples containing normalised cookie information.
def _normalized_cookie_tuples(self, attrs_set): """Return list of tuples containing normalised cookie information.
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def _cookie_from_cookie_tuple(self, tup, request): # standard is dict of standard cookie-attributes, rest is dict of the # rest of them name, value, standard, rest = tup
def _cookie_from_cookie_tuple(self, tup, request): # standard is dict of standard cookie-attributes, rest is dict of the # rest of them name, value, standard, rest = tup
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def extract_cookies(self, response, request): """Extract cookies from response, where allowable given the request.""" debug("extract_cookies: %s", response.info()) self._cookies_lock.acquire() self._policy._now = self._now = int(time.time())
def extract_cookies(self, response, request): """Extract cookies from response, where allowable given the request.""" _debug("extract_cookies: %s", response.info()) self._cookies_lock.acquire() self._policy._now = self._now = int(time.time())
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def extract_cookies(self, response, request): """Extract cookies from response, where allowable given the request.""" debug("extract_cookies: %s", response.info()) self._cookies_lock.acquire() self._policy._now = self._now = int(time.time())
def extract_cookies(self, response, request): """Extract cookies from response, where allowable given the request.""" debug("extract_cookies: %s", response.info()) self._cookies_lock.acquire() self._policy._now = self._now = int(time.time())
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def modulename(path): """Return the Python module name for a given path, or None.""" filename = os.path.basename(path) for ending in ['.py', '.pyc', '.pyd', '.pyo', 'module.so', 'module.so.1', '.so']: if len(filename) > len(ending) and filename[-len(ending):] == ending: return filename[:-len(ending)]
def modulename(path): """Return the Python module name for a given path, or None.""" filename = os.path.basename(path) suffixes = map(lambda (suffix, mode, kind): (len(suffix), suffix), imp.get_suffixes()) suffixes.sort() suffixes.reverse() for length, suffix in suffixes: if len(filename) > length and filename[-length:] == suffix: return filename[:-length]
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def repr_string(self, x, level): text = self.escape(cram(x, self.maxstring)) return re.sub(r'((\\[\\abfnrtv]|\\x..|\\u....)+)', r'<font color="#c040c0">\1</font>', repr(text))
def repr_string(self, x, level): text = self.escape(cram(x, self.maxstring)) return re.sub(r'((\\[\\abfnrtv]|\\x..|\\u....)+)', r'<font color="#c040c0">\1</font>', repr(text))
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def stripid(text): """Remove the hexadecimal id from a Python object representation.""" # The behaviour of %p is implementation-dependent; we check two cases. for pattern in [' at 0x[0-9a-f]{6,}(>+)$', ' at [0-9A-F]{8,}(>+)$']: if re.search(pattern, repr(Exception)): return re.sub(pattern, '\\1', text) return text
def stripid(text): """Remove the hexadecimal id from a Python object representation.""" # The behaviour of %p is implementation-dependent; we check two cases. if _re_stripid.search(repr(Exception)): return _re_stripid.sub(r'\1', text) return text
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def _is_some_method(object): return inspect.ismethod(object) or inspect.ismethoddescriptor(object)
def _is_some_method(obj): return inspect.ismethod(obj) or inspect.ismethoddescriptor(obj)
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def testAttributes(self): # test that exception attributes are happy try: str(u'Hello \u00E1') except Exception, e: sampleUnicodeEncodeError = e
def testAttributes(self): # test that exception attributes are happy try: str(u'Hello \u00E1') except Exception, e: sampleUnicodeEncodeError = e
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def testAttributes(self): # test that exception attributes are happy try: str(u'Hello \u00E1') except Exception, e: sampleUnicodeEncodeError = e
def testAttributes(self): # test that exception attributes are happy try: str(u'Hello \u00E1') except Exception, e: sampleUnicodeEncodeError = e
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def testAttributes(self): # test that exception attributes are happy try: str(u'Hello \u00E1') except Exception, e: sampleUnicodeEncodeError = e
def testAttributes(self): # test that exception attributes are happy try: str(u'Hello \u00E1') except Exception, e: sampleUnicodeEncodeError = e
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def testAttributes(self): # test that exception attributes are happy try: str(u'Hello \u00E1') except Exception, e: sampleUnicodeEncodeError = e
def testAttributes(self): # test that exception attributes are happy try: str(u'Hello \u00E1') except Exception, e: sampleUnicodeEncodeError = e
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def testAttributes(self): # test that exception attributes are happy try: str(u'Hello \u00E1') except Exception, e: sampleUnicodeEncodeError = e
def testAttributes(self): # test that exception attributes are happy try: str(u'Hello \u00E1') except Exception, e: sampleUnicodeEncodeError = e
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def testAttributes(self): # test that exception attributes are happy try: str(u'Hello \u00E1') except Exception, e: sampleUnicodeEncodeError = e
def testAttributes(self): # test that exception attributes are happy try: str(u'Hello \u00E1') except Exception, e: sampleUnicodeEncodeError = e
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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' )
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 delete(self): self.tk.call(self.stylename, 'delete') del(self)
def delete(self): self.tk.call(self.stylename, 'delete') del(self)
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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)
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 do_longs(opts, opt, longopts, args): try: i = string.index(opt, '=') opt, optarg = opt[:i], opt[i+1:] except ValueError: optarg = None has_arg, opt = long_has_args(opt, longopts) if has_arg: if optarg is None: if not args: raise error, 'option --%s requires argument' % opt optarg, args = args[0], args[1:] elif optarg: raise error, 'option --%s must not have an argument' % opt opts.append(('--' + opt, optarg or '')) return opts, args
def do_longs(opts, opt, longopts, args): try: i = string.index(opt, '=') opt, optarg = opt[:i], opt[i+1:] except ValueError: optarg = None has_arg, opt = long_has_args(opt, longopts) if has_arg: if optarg is None: if not args: raise GetoptError('option --%s requires argument' % opt, opt) optarg, args = args[0], args[1:] elif optarg: raise error, 'option --%s must not have an argument' % opt opts.append(('--' + opt, optarg or '')) return opts, args
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def do_longs(opts, opt, longopts, args): try: i = string.index(opt, '=') opt, optarg = opt[:i], opt[i+1:] except ValueError: optarg = None has_arg, opt = long_has_args(opt, longopts) if has_arg: if optarg is None: if not args: raise error, 'option --%s requires argument' % opt optarg, args = args[0], args[1:] elif optarg: raise error, 'option --%s must not have an argument' % opt opts.append(('--' + opt, optarg or '')) return opts, args
def do_longs(opts, opt, longopts, args): try: i = string.index(opt, '=') opt, optarg = opt[:i], opt[i+1:] except ValueError: optarg = None has_arg, opt = long_has_args(opt, longopts) if has_arg: if optarg is None: if not args: raise error, 'option --%s requires argument' % opt optarg, args = args[0], args[1:] elif optarg: raise GetoptError('option --%s must not have an argument' % opt, opt) opts.append(('--' + opt, optarg or '')) return opts, args
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def long_has_args(opt, longopts): optlen = len(opt) for i in range(len(longopts)): x, y = longopts[i][:optlen], longopts[i][optlen:] if opt != x: continue if y != '' and y != '=' and i+1 < len(longopts): if opt == longopts[i+1][:optlen]: raise error, 'option --%s not a unique prefix' % opt if longopts[i][-1:] in ('=', ): return 1, longopts[i][:-1] return 0, longopts[i] raise error, 'option --' + opt + ' not recognized'
def long_has_args(opt, longopts): optlen = len(opt) for i in range(len(longopts)): x, y = longopts[i][:optlen], longopts[i][optlen:] if opt != x: continue if y != '' and y != '=' and i+1 < len(longopts): if opt == longopts[i+1][:optlen]: raise GetoptError('option --%s not a unique prefix' % opt, opt) if longopts[i][-1:] in ('=', ): return 1, longopts[i][:-1] return 0, longopts[i] raise error, 'option --' + opt + ' not recognized'
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def long_has_args(opt, longopts): optlen = len(opt) for i in range(len(longopts)): x, y = longopts[i][:optlen], longopts[i][optlen:] if opt != x: continue if y != '' and y != '=' and i+1 < len(longopts): if opt == longopts[i+1][:optlen]: raise error, 'option --%s not a unique prefix' % opt if longopts[i][-1:] in ('=', ): return 1, longopts[i][:-1] return 0, longopts[i] raise error, 'option --' + opt + ' not recognized'
def long_has_args(opt, longopts): optlen = len(opt) for i in range(len(longopts)): x, y = longopts[i][:optlen], longopts[i][optlen:] if opt != x: continue if y != '' and y != '=' and i+1 < len(longopts): if opt == longopts[i+1][:optlen]: raise error, 'option --%s not a unique prefix' % opt if longopts[i][-1:] in ('=', ): return 1, longopts[i][:-1] return 0, longopts[i] raise GetoptError('option --%s not recognized' % opt, opt)
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def do_shorts(opts, optstring, shortopts, args): while optstring != '': opt, optstring = optstring[0], optstring[1:] if short_has_arg(opt, shortopts): if optstring == '': if not args: raise error, 'option -%s requires argument' % opt optstring, args = args[0], args[1:] optarg, optstring = optstring, '' else: optarg = '' opts.append(('-' + opt, optarg)) return opts, args
def do_shorts(opts, optstring, shortopts, args): while optstring != '': opt, optstring = optstring[0], optstring[1:] if short_has_arg(opt, shortopts): if optstring == '': if not args: raise GetoptError('option -%s requires argument' % opt, opt) optstring, args = args[0], args[1:] optarg, optstring = optstring, '' else: optarg = '' opts.append(('-' + opt, optarg)) return opts, args
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def short_has_arg(opt, shortopts): for i in range(len(shortopts)): if opt == shortopts[i] != ':': return shortopts[i+1:i+2] == ':' raise error, 'option -%s not recognized' % opt
def short_has_arg(opt, shortopts): for i in range(len(shortopts)): if opt == shortopts[i] != ':': return shortopts[i+1:i+2] == ':' raise GetoptError('option -%s not recognized' % opt, opt)
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def outputRepr(self): Output() Output("static PyObject * %s_repr(%s *self)", self.prefix, self.objecttype) OutLbrace() Output("char buf[100];") Output("""sprintf(buf, "<CFURL object at 0x%%8.8x for 0x%%8.8x>", (unsigned)self, (unsigned)self->ob_itself);""") Output("return PyString_FromString(buf);") OutRbrace()
def outputRepr(self): Output() Output("static PyObject * %s_repr(%s *self)", self.prefix, self.objecttype) OutLbrace() Output("char buf[100];") Output("""sprintf(buf, "<CFURL object at 0x%%8.8x for 0x%%8.8x>", (unsigned)self, (unsigned)self->ob_itself);""") Output("return PyString_FromString(buf);") OutRbrace()
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def find_module(self, name, path): if name in self.excludes: self.msgout(3, "find_module -> Excluded") raise ImportError, name
def find_module(self, name, path): if name in self.excludes: self.msgout(3, "find_module -> Excluded") raise ImportError, name
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def find_module(self, name, path): if name in self.excludes: self.msgout(3, "find_module -> Excluded") raise ImportError, name
def find_module(self, name, path): if name in self.excludes: self.msgout(3, "find_module -> Excluded") raise ImportError, name
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def find_module(self, name, path): if name in self.excludes: self.msgout(3, "find_module -> Excluded") raise ImportError, name
def find_module(self, name, path): if name in self.excludes: self.msgout(3, "find_module -> Excluded") raise ImportError, name
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def goahead(self, end): rawdata = self.rawdata i = 0 n = len(rawdata) while i < n: if self.nomoretags: self.handle_data(rawdata[i:n]) i = n break match = interesting.search(rawdata, i) if match: j = match.start(0) else: j = n if i < j: self.handle_data(rawdata[i:j]) i = j if i == n: break if rawdata[i] == '<': if starttagopen.match(rawdata, i): if self.literal: self.handle_data(rawdata[i]) i = i+1 continue k = self.parse_starttag(i) if k < 0: break i = k continue if endtagopen.match(rawdata, i): k = self.parse_endtag(i) if k < 0: break i = k self.literal = 0 continue if commentopen.match(rawdata, i): if self.literal: self.handle_data(rawdata[i]) i = i+1 continue k = self.parse_comment(i) if k < 0: break i = i+k continue if piopen.match(rawdata, i): if self.literal: self.handle_data(rawdata[i]) i = i+1 continue k = self.parse_pi(i) if k < 0: break i = i+k continue match = special.match(rawdata, i) if match: if self.literal: self.handle_data(rawdata[i]) i = i+1 continue # This is some sort of declaration; in "HTML as # deployed," this should only be the document type # declaration ("<!DOCTYPE html...>"). k = self.parse_declaration(i) if k < 0: break i = k continue elif rawdata[i] == '&': match = charref.match(rawdata, i) if match: name = match.group(1) self.handle_charref(name) i = match.end(0) if rawdata[i-1] != ';': i = i-1 continue match = entityref.match(rawdata, i) if match: name = match.group(1) self.handle_entityref(name) i = match.end(0) if rawdata[i-1] != ';': i = i-1 continue else: raise SGMLParserError('neither < nor & ??') # We get here only if incomplete matches but # nothing else match = incomplete.match(rawdata, i) if not match: self.handle_data(rawdata[i]) i = i+1 continue j = match.end(0) if j == n: break # Really incomplete self.handle_data(rawdata[i:j]) i = j # end while if end and i < n: self.handle_data(rawdata[i:n]) i = n self.rawdata = rawdata[i:] # XXX if end: check for empty stack
def goahead(self, end): rawdata = self.rawdata i = 0 n = len(rawdata) while i < n: if self.nomoretags: self.handle_data(rawdata[i:n]) i = n break match = interesting.search(rawdata, i) if match: j = match.start(0) else: j = n if i < j: self.handle_data(rawdata[i:j]) i = j if i == n: break if rawdata[i] == '<': if starttagopen.match(rawdata, i): if self.literal: self.handle_data(rawdata[i]) i = i+1 continue k = self.parse_starttag(i) if k < 0: break i = k continue if endtagopen.match(rawdata, i): k = self.parse_endtag(i) if k < 0: break i = k self.literal = 0 continue if commentopen.match(rawdata, i): if self.literal: self.handle_data(rawdata[i]) i = i+1 continue k = self.parse_comment(i) if k < 0: break i = i+k continue if piopen.match(rawdata, i): if self.literal: self.handle_data(rawdata[i]) i = i+1 continue k = self.parse_pi(i) if k < 0: break i = i+k continue match = special.match(rawdata, i) if match: if self.literal: self.handle_data(rawdata[i]) i = i+1 continue # This is some sort of declaration; in "HTML as # deployed," this should only be the document type # declaration ("<!DOCTYPE html...>"). k = self.parse_declaration(i) if k < 0: break i = k continue elif rawdata[i] == '&': match = charref.match(rawdata, i) if match: name = match.group(1) self.handle_charref(name) i = match.end(0) if rawdata[i-1] != ';': i = i-1 continue match = entityref.match(rawdata, i) if match: name = match.group(1) self.handle_entityref(name) i = match.end(0) if rawdata[i-1] != ';': i = i-1 continue else: raise SGMLParseError('neither < nor & ??') # We get here only if incomplete matches but # nothing else match = incomplete.match(rawdata, i) if not match: self.handle_data(rawdata[i]) i = i+1 continue j = match.end(0) if j == n: break # Really incomplete self.handle_data(rawdata[i:j]) i = j # end while if end and i < n: self.handle_data(rawdata[i:n]) i = n self.rawdata = rawdata[i:] # XXX if end: check for empty stack
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def nobody_uid(): """Internal routine to get nobody's uid""" global nobody if nobody: return nobody import pwd try: nobody = pwd.getpwnam('nobody')[2] except pwd.error: nobody = 1 + max(map(lambda x: x[2], pwd.getpwall())) return nobody
def nobody_uid(): """Internal routine to get nobody's uid""" global nobody if nobody: return nobody import pwd try: nobody = pwd.getpwnam('nobody')[2] except KeyError: nobody = 1 + max(map(lambda x: x[2], pwd.getpwall())) return nobody
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def test_pack_unpack(self): for line, elem in ( ('a, = 1,', 'LOAD_CONST',), ('a, b = 1, 2', 'ROT_TWO',), ('a, b, c = 1, 2, 3', 'ROT_THREE',), ): asm = dis_single(line) self.assert_(elem in asm) self.assert_('BUILD_TUPLE' not in asm) self.assert_('UNPACK_TUPLE' not in asm)
def test_pack_unpack(self): for line, elem in ( ('a, = a,', 'LOAD_CONST',), ('a, b = a, b', 'ROT_TWO',), ('a, b, c = a, b, c', 'ROT_THREE',), ): asm = dis_single(line) self.assert_(elem in asm) self.assert_('BUILD_TUPLE' not in asm) self.assert_('UNPACK_TUPLE' not in asm)
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def write(self, s, tags=(), mark="insert"): self.text.insert(mark, str(s), tags) self.text.see(mark) self.text.update()
def write(self, s, tags=(), mark="insert"): self.text.insert(mark, s, tags) self.text.see(mark) self.text.update()
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def test_autoseed(self): self.gen.seed() state1 = self.gen.getstate() time.sleep(1) self.gen.seed() # diffent seeds at different times state2 = self.gen.getstate() self.assertNotEqual(state1, state2)
def test_autoseed(self): self.gen.seed() state1 = self.gen.getstate() time.sleep(1.1) self.gen.seed() # diffent seeds at different times state2 = self.gen.getstate() self.assertNotEqual(state1, state2)
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def escape(pattern): "Escape all non-alphanumeric characters in pattern." result = list(pattern) alphanum=string.letters+'_'+string.digits for i in range(len(pattern)): char = pattern[i] if char not in alphanum: if char=='\000': result[i] = '\\000' else: result[i] = '\\'+char return string.join(result, '')
def escape(pattern): """escape(string) -> string Return string with all non-alphanumerics backslashed; this is useful if you want to match an arbitrary literal string that may have regular expression metacharacters in it. """ result = list(pattern) alphanum=string.letters+'_'+string.digits for i in range(len(pattern)): char = pattern[i] if char not in alphanum: if char=='\000': result[i] = '\\000' else: result[i] = '\\'+char return string.join(result, '')
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def compile(pattern, flags=0): "Compile a regular expression pattern, returning a RegexObject." groupindex={} code=pcre_compile(pattern, flags, groupindex) return RegexObject(pattern, flags, code, groupindex)
def compile(pattern, flags=0): """compile(pattern[, flags]) -> RegexObject Compile a regular expression pattern into a regular expression object, which can be used for matching using its match() and search() methods. """ groupindex={} code=pcre_compile(pattern, flags, groupindex) return RegexObject(pattern, flags, code, groupindex)
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def search(self, string, pos=0, endpos=None): """Scan through string looking for a match to the pattern, returning a MatchObject instance, or None if no match was found."""
def search(self, string, pos=0, endpos=None): """Scan through string looking for a match to the pattern, returning a MatchObject instance, or None if no match was found."""
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