bugged stringlengths 4 228k | fixed stringlengths 0 96.3M | __index_level_0__ int64 0 481k |
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def run_cgi(self): """Execute a CGI script.""" dir, rest = self.cgi_info i = rest.rfind('?') if i >= 0: rest, query = rest[:i], rest[i+1:] else: query = '' i = rest.find('/') if i >= 0: script, rest = rest[:i], rest[i:] else: script, rest = rest, '' scriptname = dir + '/' + script scriptfile = self.translate_path(scrip... | def run_cgi(self): """Execute a CGI script.""" dir, rest = self.cgi_info i = rest.rfind('?') if i >= 0: rest, query = rest[:i], rest[i+1:] else: query = '' i = rest.find('/') if i >= 0: script, rest = rest[:i], rest[i:] else: script, rest = rest, '' scriptname = dir + '/' + script scriptfile = self.translate_path(scrip... | 12,000 |
def missing_ok(str): try: getattr(socket, str) except AttributeError: pass | def missing_ok(str): try: getattr(socket, str) except AttributeError: pass | 12,001 |
def __init__ (self, indent_increment=2, max_help_position=24, width=80, short_first=1): HelpFormatter.__init__( self, indent_increment, max_help_position, width, short_first) | def __init__ (self, indent_increment=2, max_help_position=24, width=79, short_first=1): HelpFormatter.__init__( self, indent_increment, max_help_position, width, short_first) | 12,002 |
def __init__ (self, indent_increment=0, max_help_position=24, width=80, short_first=0): HelpFormatter.__init__ ( self, indent_increment, max_help_position, width, short_first) | def __init__ (self, indent_increment=0, max_help_position=24, width=79, short_first=0): HelpFormatter.__init__ ( self, indent_increment, max_help_position, width, short_first) | 12,003 |
def __init__(self, address=('localhost', SYSLOG_UDP_PORT), facility=LOG_USER): """ Initialize a handler. | def __init__(self, address=('localhost', SYSLOG_UDP_PORT), facility=LOG_USER): """ Initialize a handler. | 12,004 |
def emit(self, record): """ Emit a record. | def emit(self, record): """ Emit a record. | 12,005 |
def test(): import sys if sys.platform in ('win', 'mac'): if verbose: print "Can't test select easily" return cmd = 'for i in 0 1 2 3 4 5 6 7 8 9; do echo testing...; sleep 1; done' p = os.popen(cmd, 'r') for tout in (0, 1, 2, 4, 8, 16) + (None,)*10: if verbose: print 'timeout =', tout rfd, wfd, xfd = select.select([p]... | def test(): import sys if sys.platform[:3] in ('win', 'mac'): if verbose: print "Can't test select easily" return cmd = 'for i in 0 1 2 3 4 5 6 7 8 9; do echo testing...; sleep 1; done' p = os.popen(cmd, 'r') for tout in (0, 1, 2, 4, 8, 16) + (None,)*10: if verbose: print 'timeout =', tout rfd, wfd, xfd = select.select... | 12,006 |
def test(): import sys if sys.platform in ('win', 'mac'): if verbose: print "Can't test select easily" return cmd = 'for i in 0 1 2 3 4 5 6 7 8 9; do echo testing...; sleep 1; done' p = os.popen(cmd, 'r') for tout in (0, 1, 2, 4, 8, 16) + (None,)*10: if verbose: print 'timeout =', tout rfd, wfd, xfd = select.select([p]... | def test(): import sys if sys.platform in ('win', 'mac'): if verbose: print "Can't test select easily on", sys.platform return cmd = 'for i in 0 1 2 3 4 5 6 7 8 9; do echo testing...; sleep 1; done' p = os.popen(cmd, 'r') for tout in (0, 1, 2, 4, 8, 16) + (None,)*10: if verbose: print 'timeout =', tout rfd, wfd, xfd = ... | 12,007 |
def __calc_lang(self): # Set self.__lang by using locale.getlocale() or # locale.getdefaultlocale(). If both turn up empty, set the attribute # to ''. This is to stop calls to this method and to make sure # strptime() can produce an re object correctly. current_lang = locale.getlocale(locale.LC_TIME)[0] if current_la... | def __calc_lang(self): # Set self.__lang by using locale.getlocale() or # locale.getdefaultlocale(). If both turn up empty, set the attribute # to ''. This is to stop calls to this method and to make sure # strptime() can produce an re object correctly. current_lang = locale.getlocale(locale.LC_TIME)[0] if current_la... | 12,008 |
def pattern(self, format): """Return re pattern for the format string.""" processed_format = '' for whitespace in whitespace_string: format = format.replace(whitespace, r'\s*') while format.find('%') != -1: directive_index = format.index('%')+1 processed_format = "%s%s%s" % (processed_format, format[:directive_index-1]... | def pattern(self, format): """Return re pattern for the format string.""" processed_format = '' whitespace_replacement = re_compile('\s+') format = whitespace_replacement.sub('\s*', format) while format.find('%') != -1: directive_index = format.index('%')+1 processed_format = "%s%s%s" % (processed_format, format[:direc... | 12,009 |
def compile(self, format): """Return a compiled re object for the format string.""" format = "(?#%s)%s" % (self.locale_time.lang,format) return re_compile(self.pattern(format), IGNORECASE) | def compile(self, format): """Return a compiled re object for the format string.""" format = "(?#%s)%s" % (self.locale_time.lang,format) return re_compile(self.pattern(format), IGNORECASE) | 12,010 |
def strptime(data_string, format="%a %b %d %H:%M:%S %Y"): """Return a time struct based on the input data and the format string.""" locale_time = LocaleTime() compiled_re = TimeRE(locale_time).compile(format) found = compiled_re.match(data_string) if not found: raise ValueError("time data did not match format") year = ... | def strptime(data_string, format="%a %b %d %H:%M:%S %Y"): """Return a time struct based on the input data and the format string.""" global _locale_cache global _regex_cache locale_time = _locale_cache.locale_time if locale_time.lang != _getlang(): _locale_cache = TimeRE() _regex_cache.clear() format_regex = _regex_cac... | 12,011 |
def grok_environment_error (exc, prefix="error: "): """Generate a useful error message from an EnvironmentError (IOError or OSError) exception object. Handles Python 1.5.1 and 1.5.2 styles, and does what it can to deal with exception objects that don't have a filename (which happens when the error is due to a two-file... | def grok_environment_error (exc, prefix="error: "): """Generate a useful error message from an EnvironmentError (IOError or OSError) exception object. Handles Python 1.5.1 and 1.5.2 styles, and does what it can to deal with exception objects that don't have a filename (which happens when the error is due to a two-file... | 12,012 |
def split_quoted (s): """Split a string up according to Unix shell-like rules for quotes and backslashes. In short: words are delimited by spaces, as long as those spaces are not escaped by a backslash, or inside a quoted string. Single and double quotes are equivalent, and the quote characters can be backslash-escape... | def split_quoted (s): """Split a string up according to Unix shell-like rules for quotes and backslashes. In short: words are delimited by spaces, as long as those spaces are not escaped by a backslash, or inside a quoted string. Single and double quotes are equivalent, and the quote characters can be backslash-escape... | 12,013 |
def send_paragraph(self, blankline): self.file.write('\n' + '\n'*blankline) self.col = 0 self.atbreak = 0 | def send_paragraph(self, blankline): self.file.write('\n'*blankline) self.col = 0 self.atbreak = 0 | 12,014 |
def get_authorization(self, req, chal): try: realm = chal['realm'] nonce = chal['nonce'] qop = chal.get('qop') algorithm = chal.get('algorithm', 'MD5') # mod_digest doesn't send an opaque, even though it isn't # supposed to be optional opaque = chal.get('opaque', None) except KeyError: return None | def get_authorization(self, req, chal): try: realm = chal['realm'] nonce = chal['nonce'] qop = chal.get('qop') algorithm = chal.get('algorithm', 'MD5') # mod_digest doesn't send an opaque, even though it isn't # supposed to be optional opaque = chal.get('opaque', None) except KeyError: return None | 12,015 |
def buildPython(): print "Building a universal python" buildDir = os.path.join(WORKDIR, '_bld', 'python') rootDir = os.path.join(WORKDIR, '_root') if os.path.exists(buildDir): shutil.rmtree(buildDir) if os.path.exists(rootDir): shutil.rmtree(rootDir) os.mkdir(buildDir) os.mkdir(rootDir) os.mkdir(os.path.join(rootDir,... | def buildPython(): print "Building a universal python" buildDir = os.path.join(WORKDIR, '_bld', 'python') rootDir = os.path.join(WORKDIR, '_root') if os.path.exists(buildDir): shutil.rmtree(buildDir) if os.path.exists(rootDir): shutil.rmtree(rootDir) os.mkdir(buildDir) os.mkdir(rootDir) os.mkdir(os.path.join(rootDir,... | 12,016 |
def decode_header(header): """Decode a message header value without converting charset. Returns a list of (decoded_string, charset) pairs containing each of the decoded parts of the header. Charset is None for non-encoded parts of the header, otherwise a lower-case string containing the name of the character set spec... | def decode_header(header): """Decode a message header value without converting charset. Returns a list of (decoded_string, charset) pairs containing each of the decoded parts of the header. Charset is None for non-encoded parts of the header, otherwise a lower-case string containing the name of the character set spec... | 12,017 |
def f(): pass | def f(): pass | 12,018 |
def document(self, object, name=None, *args): """Generate documentation for an object.""" args = (object, name) + args if inspect.ismodule(object): return self.docmodule(*args) if inspect.isclass(object): return self.docclass(*args) if inspect.isroutine(object): return self.docroutine(*args) return self.docother(*args) | def document(self, object, name=None, *args): """Generate documentation for an object.""" args = (object, name) + args try: if inspect.ismodule(object): return self.docmodule(*args) if inspect.isclass(object): return self.docclass(*args) if inspect.isroutine(object): return self.docroutine(*args) except AttributeEr... | 12,019 |
def system_methodSignature(self, method_name): """system.methodSignature('add') => [double, int, int] | def system_methodSignature(self, method_name): """system.methodSignature('add') => [double, int, int] | 12,020 |
def test_tee(self): n = 100 def irange(n): for i in xrange(n): yield i | def test_tee(self): n = 200 def irange(n): for i in xrange(n): yield i | 12,021 |
def irange(n): for i in xrange(n): yield i | def irange(n): for i in xrange(n): yield i | 12,022 |
def irange(n): for i in xrange(n): yield i | def irange(n): for i in xrange(n): yield i | 12,023 |
def irange(n): for i in xrange(n): yield i | def irange(n): for i in xrange(n): yield i | 12,024 |
def irange(n): for i in xrange(n): yield i | def irange(n): for i in xrange(n): yield i | 12,025 |
def test_starmap(self): a = [] self.makecycle(starmap(lambda *t: t, [(a,a)]*2), a) | def test_starmap(self): a = [] self.makecycle(starmap(lambda *t: t, [(a,a)]*2), a) | 12,026 |
>>> def pairwise(iterable): | >>> def pairwise(iterable): | 12,027 |
def frange(start, stop, step): while start <= stop: yield start start += stop | def frange(start, stop, step): while start <= stop: yield start start += step | 12,028 |
def begin(self): if self.msg is not None: # we've already started reading the response return | def begin(self): if self.msg is not None: # we've already started reading the response return | 12,029 |
def initpaths(self): self.includepath = [':', INCLUDEDIR] | def initpaths(self): self.includepath = [':', INCLUDEDIR] | 12,030 |
def initosspecifics(self): if MacOS: self.filetype = 'TEXT' self.filecreator = CREATOR else: self.filetype = self.filecreator = None | def initosspecifics(self): if MacOS and CREATOR: self.filetype = 'TEXT' self.filecreator = CREATOR else: self.filetype = self.filecreator = None | 12,031 |
def deprecated_err(func, *args): # The `warnings` module doesn't have an advertised way to restore # its filter list. Cheat. save_warnings_filters = warnings.filters[:] # Grrr, we need this function to warn every time. Without removing # the warningregistry, running test_tarfile then test_struct would fail # on 64-bi... | def deprecated_err(func, *args): # The `warnings` module doesn't have an advertised way to restore # its filter list. Cheat. save_warnings_filters = warnings.filters[:] # Grrr, we need this function to warn every time. Without removing # the warningregistry, running test_tarfile then test_struct would fail # on 64-bi... | 12,032 |
def deprecated_err(func, *args): # The `warnings` module doesn't have an advertised way to restore # its filter list. Cheat. save_warnings_filters = warnings.filters[:] # Grrr, we need this function to warn every time. Without removing # the warningregistry, running test_tarfile then test_struct would fail # on 64-bi... | def deprecated_err(func, *args): # The `warnings` module doesn't have an advertised way to restore # its filter list. Cheat. save_warnings_filters = warnings.filters[:] # Grrr, we need this function to warn every time. Without removing # the warningregistry, running test_tarfile then test_struct would fail # on 64-bi... | 12,033 |
def deprecated_err(func, *args): # The `warnings` module doesn't have an advertised way to restore # its filter list. Cheat. save_warnings_filters = warnings.filters[:] # Grrr, we need this function to warn every time. Without removing # the warningregistry, running test_tarfile then test_struct would fail # on 64-bi... | def deprecated_err(func, *args): # The `warnings` module doesn't have an advertised way to restore # its filter list. Cheat. save_warnings_filters = warnings.filters[:] # Grrr, we need this function to warn every time. Without removing # the warningregistry, running test_tarfile then test_struct would fail # on 64-bi... | 12,034 |
def mime_encode(line, header): '''Code a single line as quoted-printable. If header is set, quote some extra characters.''' if header: reg = mime_header_char else: reg = mime_char newline = '' if len(line) >= 5 and line[:5] == 'From ': # quote 'From ' at the start of a line for stupid mailers newline = string.upper('=%... | def mime_encode(line, header): '''Code a single line as quoted-printable. If header is set, quote some extra characters.''' if header: reg = mime_header_char else: reg = mime_char newline = '' if len(line) >= 5 and line[:5] == 'From ': # quote 'From ' at the start of a line for stupid mailers newline = string.upper('=%... | 12,035 |
def main(): QSIZE = 16 TIME = 5 audio = 0 num, den = 1, 1 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:t:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': QSIZE = string.atoi(arg) elif opt == '-r': [nstr, dstr] = string.splitfields(arg, '/') num, den = string.atoi(nstr), string.atoi(dstr) elif opt... | def main(): format = SV.RGB8_FRAMES qsize = 2 audio = 0 num, den = 1, 1 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:t:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': QSIZE = string.atoi(arg) elif opt == '-r': [nstr, dstr] = string.splitfields(arg, '/') num, den = string.atoi(nstr), string.atoi(... | 12,036 |
def main(): QSIZE = 16 TIME = 5 audio = 0 num, den = 1, 1 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:t:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': QSIZE = string.atoi(arg) elif opt == '-r': [nstr, dstr] = string.splitfields(arg, '/') num, den = string.atoi(nstr), string.atoi(dstr) elif opt... | def main(): QSIZE = 16 TIME = 5 audio = 0 rate = 2 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': QSIZE = string.atoi(arg) elif opt == '-r': [nstr, dstr] = string.splitfields(arg, '/') num, den = string.atoi(nstr), string.atoi(dstr) elif opt == '-t':... | 12,037 |
def main(): QSIZE = 16 TIME = 5 audio = 0 num, den = 1, 1 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:t:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': QSIZE = string.atoi(arg) elif opt == '-r': [nstr, dstr] = string.splitfields(arg, '/') num, den = string.atoi(nstr), string.atoi(dstr) elif opt... | def main(): QSIZE = 16 TIME = 5 audio = 0 num, den = 1, 1 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:t:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': qsize = string.atoi(arg) elif opt == '-r': [nstr, dstr] = string.splitfields(arg, '/') num, den = string.atoi(nstr), string.atoi(dstr) elif opt... | 12,038 |
def main(): QSIZE = 16 TIME = 5 audio = 0 num, den = 1, 1 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:t:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': QSIZE = string.atoi(arg) elif opt == '-r': [nstr, dstr] = string.splitfields(arg, '/') num, den = string.atoi(nstr), string.atoi(dstr) elif opt... | def main(): QSIZE = 16 TIME = 5 audio = 0 num, den = 1, 1 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:t:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': QSIZE = string.atoi(arg) elif opt == '-r': rate = string.atoi(arg) if rate < 2: sys.stderr.write('-r rate must be >= 2\n') sys.exit(2) if args... | 12,039 |
def main(): QSIZE = 16 TIME = 5 audio = 0 num, den = 1, 1 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:t:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': QSIZE = string.atoi(arg) elif opt == '-r': [nstr, dstr] = string.splitfields(arg, '/') num, den = string.atoi(nstr), string.atoi(dstr) elif opt... | def main(): QSIZE = 16 TIME = 5 audio = 0 num, den = 1, 1 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:t:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': QSIZE = string.atoi(arg) elif opt == '-r': [nstr, dstr] = string.splitfields(arg, '/') num, den = string.atoi(nstr), string.atoi(dstr) elif opt... | 12,040 |
def main(): QSIZE = 16 TIME = 5 audio = 0 num, den = 1, 1 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:t:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': QSIZE = string.atoi(arg) elif opt == '-r': [nstr, dstr] = string.splitfields(arg, '/') num, den = string.atoi(nstr), string.atoi(dstr) elif opt... | def main(): QSIZE = 16 TIME = 5 audio = 0 num, den = 1, 1 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:t:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': QSIZE = string.atoi(arg) elif opt == '-r': [nstr, dstr] = string.splitfields(arg, '/') num, den = string.atoi(nstr), string.atoi(dstr) elif opt... | 12,041 |
def main(): QSIZE = 16 TIME = 5 audio = 0 num, den = 1, 1 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:t:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': QSIZE = string.atoi(arg) elif opt == '-r': [nstr, dstr] = string.splitfields(arg, '/') num, den = string.atoi(nstr), string.atoi(dstr) elif opt... | def main(): QSIZE = 16 TIME = 5 audio = 0 num, den = 1, 1 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:t:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': QSIZE = string.atoi(arg) elif opt == '-r': [nstr, dstr] = string.splitfields(arg, '/') num, den = string.atoi(nstr), string.atoi(dstr) elif opt... | 12,042 |
def main(): QSIZE = 16 TIME = 5 audio = 0 num, den = 1, 1 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:t:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': QSIZE = string.atoi(arg) elif opt == '-r': [nstr, dstr] = string.splitfields(arg, '/') num, den = string.atoi(nstr), string.atoi(dstr) elif opt... | def main(): QSIZE = 16 TIME = 5 audio = 0 num, den = 1, 1 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:t:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': QSIZE = string.atoi(arg) elif opt == '-r': [nstr, dstr] = string.splitfields(arg, '/') num, den = string.atoi(nstr), string.atoi(dstr) elif opt... | 12,043 |
def main(): QSIZE = 16 TIME = 5 audio = 0 num, den = 1, 1 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:t:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': QSIZE = string.atoi(arg) elif opt == '-r': [nstr, dstr] = string.splitfields(arg, '/') num, den = string.atoi(nstr), string.atoi(dstr) elif opt... | def main(): QSIZE = 16 TIME = 5 audio = 0 num, den = 1, 1 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:t:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': QSIZE = string.atoi(arg) elif opt == '-r': [nstr, dstr] = string.splitfields(arg, '/') num, den = string.atoi(nstr), string.atoi(dstr) elif opt... | 12,044 |
def main(): QSIZE = 16 TIME = 5 audio = 0 num, den = 1, 1 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:t:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': QSIZE = string.atoi(arg) elif opt == '-r': [nstr, dstr] = string.splitfields(arg, '/') num, den = string.atoi(nstr), string.atoi(dstr) elif opt... | def main(): QSIZE = 16 TIME = 5 audio = 0 num, den = 1, 1 opts, args = getopt.getopt(sys.argv[1:], 'aq:r:t:') for opt, arg in opts: if opt == '-a': audio = 1 elif opt == '-q': QSIZE = string.atoi(arg) elif opt == '-r': [nstr, dstr] = string.splitfields(arg, '/') num, den = string.atoi(nstr), string.atoi(dstr) elif opt... | 12,045 |
def record(v, filename, audiofilename): import thread x, y = gl.getsize() vout = VFile.VoutFile().init(filename) vout.format = 'rgb8' vout.width = x vout.height = y vout.writeheader() buffer = [] thread.start_new_thread(saveframes, (vout, buffer)) if audiofilename: initaudio(audiofilename, buffer) gl.wintitle('(rec) ' ... | def record(v, info, filename, audiofilename): import thread x, y = gl.getsize() vout = VFile.VoutFile().init(filename) vout.format = 'rgb8' vout.width = x vout.height = y vout.writeheader() buffer = [] thread.start_new_thread(saveframes, (vout, buffer)) if audiofilename: initaudio(audiofilename, buffer) gl.wintitle('(r... | 12,046 |
def record(v, filename, audiofilename): import thread x, y = gl.getsize() vout = VFile.VoutFile().init(filename) vout.format = 'rgb8' vout.width = x vout.height = y vout.writeheader() buffer = [] thread.start_new_thread(saveframes, (vout, buffer)) if audiofilename: initaudio(audiofilename, buffer) gl.wintitle('(rec) ' ... | def record(v, filename, audiofilename): import thread format, x, y, qsize, rate = info fps = 59.64 tpf = 1000.0 / fps vout = VFile.VoutFile().init(filename) vout.format = 'rgb8' vout.width = x vout.height = y vout.writeheader() buffer = [] thread.start_new_thread(saveframes, (vout, buffer)) if audiofilename: initaudio... | 12,047 |
def record(v, filename, audiofilename): import thread x, y = gl.getsize() vout = VFile.VoutFile().init(filename) vout.format = 'rgb8' vout.width = x vout.height = y vout.writeheader() buffer = [] thread.start_new_thread(saveframes, (vout, buffer)) if audiofilename: initaudio(audiofilename, buffer) gl.wintitle('(rec) ' ... | def record(v, filename, audiofilename): import thread x, y = gl.getsize() vout = VFile.VoutFile().init(filename) vout.format = 'rgb8' vout.width = x vout.height = y vout.writeheader() MAXSIZE = 20 import Queue queue = Queue.Queue().init(MAXSIZE) done = thread.allocate_lock() done.acquire_lock() thread.start_new_thread(... | 12,048 |
def record(v, filename, audiofilename): import thread x, y = gl.getsize() vout = VFile.VoutFile().init(filename) vout.format = 'rgb8' vout.width = x vout.height = y vout.writeheader() buffer = [] thread.start_new_thread(saveframes, (vout, buffer)) if audiofilename: initaudio(audiofilename, buffer) gl.wintitle('(rec) ' ... | def record(v, filename, audiofilename): import thread x, y = gl.getsize() vout = VFile.VoutFile().init(filename) vout.format = 'rgb8' vout.width = x vout.height = y vout.writeheader() buffer = [] thread.start_new_thread(saveframes, (vout, buffer)) if audiofilename: audiodone = thread.allocate_lock() audiodone.acquire_l... | 12,049 |
def record(v, filename, audiofilename): import thread x, y = gl.getsize() vout = VFile.VoutFile().init(filename) vout.format = 'rgb8' vout.width = x vout.height = y vout.writeheader() buffer = [] thread.start_new_thread(saveframes, (vout, buffer)) if audiofilename: initaudio(audiofilename, buffer) gl.wintitle('(rec) ' ... | def record(v, filename, audiofilename): import thread x, y = gl.getsize() vout = VFile.VoutFile().init(filename) vout.format = 'rgb8' vout.width = x vout.height = y vout.writeheader() buffer = [] thread.start_new_thread(saveframes, (vout, buffer)) if audiofilename: initaudio(audiofilename, buffer) gl.wintitle('(rec) ' ... | 12,050 |
def record(v, filename, audiofilename): import thread x, y = gl.getsize() vout = VFile.VoutFile().init(filename) vout.format = 'rgb8' vout.width = x vout.height = y vout.writeheader() buffer = [] thread.start_new_thread(saveframes, (vout, buffer)) if audiofilename: initaudio(audiofilename, buffer) gl.wintitle('(rec) ' ... | def record(v, filename, audiofilename): import thread x, y = gl.getsize() vout = VFile.VoutFile().init(filename) vout.format = 'rgb8' vout.width = x vout.height = y vout.writeheader() buffer = [] thread.start_new_thread(saveframes, (vout, buffer)) if audiofilename: initaudio(audiofilename, buffer) gl.wintitle('(rec) ' ... | 12,051 |
def record(v, filename, audiofilename): import thread x, y = gl.getsize() vout = VFile.VoutFile().init(filename) vout.format = 'rgb8' vout.width = x vout.height = y vout.writeheader() buffer = [] thread.start_new_thread(saveframes, (vout, buffer)) if audiofilename: initaudio(audiofilename, buffer) gl.wintitle('(rec) ' ... | def record(v, filename, audiofilename): import thread x, y = gl.getsize() vout = VFile.VoutFile().init(filename) vout.format = 'rgb8' vout.width = x vout.height = y vout.writeheader() buffer = [] thread.start_new_thread(saveframes, (vout, buffer)) if audiofilename: initaudio(audiofilename, buffer) gl.wintitle('(rec) ' ... | 12,052 |
def saveframes(vout, buffer): while 1: if not buffer: time.millisleep(10) else: x = buffer[0] if not x: break del buffer[0] data, t = x vout.writeframe(t, data, None) del data sys.stderr.write('Done writing\n') vout.close() | def saveframes(vout, queue, done): while 1: if not buffer: time.millisleep(10) else: x = buffer[0] if not x: break del buffer[0] data, t = x vout.writeframe(t, data, None) del data sys.stderr.write('Done writing\n') vout.close() | 12,053 |
def saveframes(vout, buffer): while 1: if not buffer: time.millisleep(10) else: x = buffer[0] if not x: break del buffer[0] data, t = x vout.writeframe(t, data, None) del data sys.stderr.write('Done writing\n') vout.close() | def saveframes(vout, buffer): while 1: x = queue.get() if not x: break data, t = x vout.writeframe(t, data, None) del data sys.stderr.write('Done writing video\n') vout.close() | 12,054 |
def saveframes(vout, buffer): while 1: if not buffer: time.millisleep(10) else: x = buffer[0] if not x: break del buffer[0] data, t = x vout.writeframe(t, data, None) del data sys.stderr.write('Done writing\n') vout.close() | def saveframes(vout, buffer): while 1: if not buffer: time.millisleep(10) else: x = buffer[0] if not x: break del buffer[0] data, t = x vout.writeframe(t, data, None) del data sys.stderr.write('Done writing\n') vout.close() | 12,055 |
def initaudio(filename, buffer): import thread, aiff afile = aiff.Aiff().init(filename, 'w') afile.nchannels = AL.MONO afile.sampwidth = AL.SAMPLE_8 params = [AL.INPUT_RATE, 0] al.getparams(AL.DEFAULT_DEVICE, params) print 'audio sampling rate =', params[1] afile.samprate = params[1] c = al.newconfig() c.setchannels(AL... | def initaudio(filename, buffer): import thread, aiff afile = aiff.Aiff().init(filename, 'w') afile.nchannels = AL.MONO afile.sampwidth = AL.SAMPLE_8 params = [AL.INPUT_RATE, 0] al.getparams(AL.DEFAULT_DEVICE, params) print 'audio sampling rate =', params[1] afile.samprate = params[1] c = al.newconfig() c.setchannels(AL... | 12,056 |
def audiorecord(afile, aport, buffer): while buffer[-1:] <> [None]: data = aport.readsamps(AQSIZE/2) | def audiorecord(afile, aport, stop, done): while not stop: data = aport.readsamps(AQSIZE/2) | 12,057 |
def testRecvFrom(self): """Testing recfrom() over UDP.""" msg, addr = self.serv.recvfrom(len(MSG)) hostname, port = addr ##self.assertEqual(hostname, socket.gethostbyname('localhost')) self.assertEqual(msg, MSG) | def testRecvFrom(self): """Testing recvfrom() over UDP.""" msg, addr = self.serv.recvfrom(len(MSG)) hostname, port = addr ##self.assertEqual(hostname, socket.gethostbyname('localhost')) self.assertEqual(msg, MSG) | 12,058 |
def __init__(self): | def __init__(self): | 12,059 |
def setflag(self, flag): | def setflag(self, flag): | 12,060 |
def __init__(self, pattern, data=None): | def __init__(self, pattern, data=None): | 12,061 |
def getwidth(self): | def getwidth(self): | 12,062 |
def set(self, flag): | def set(self, flag): | 12,063 |
def __init__(self, string): | def __init__(self, string): | 12,064 |
def __next(self): | def __next(self): | 12,065 |
def __next(self): | def __next(self): | 12,066 |
def __next(self): | def __next(self): | 12,067 |
def __next(self): | def __next(self): | 12,068 |
def _fixescape(escape, character_class=0): # convert escape to (type, value) if character_class: # inside a character class, we'll look in the character # escapes dictionary first code = ESCAPES.get(escape) if code: return code code = CATEGORIES.get(escape) else: code = CATEGORIES.get(escape) if code: return code code ... | def _fixescape(escape, character_class=0): # convert escape to (type, value) if character_class: # inside a character class, we'll look in the character # escapes dictionary first code = ESCAPES.get(escape) if code: return code code = CATEGORIES.get(escape) else: code = CATEGORIES.get(escape) if code: return code code ... | 12,069 |
def _fixescape(escape, character_class=0): # convert escape to (type, value) if character_class: # inside a character class, we'll look in the character # escapes dictionary first code = ESCAPES.get(escape) if code: return code code = CATEGORIES.get(escape) else: code = CATEGORIES.get(escape) if code: return code code ... | def _fixescape(escape, character_class=0): # convert escape to (type, value) if character_class: # inside a character class, we'll look in the character # escapes dictionary first code = ESCAPES.get(escape) if code: return code code = CATEGORIES.get(escape) else: code = CATEGORIES.get(escape) if code: return code code ... | 12,070 |
def _fixescape(escape, character_class=0): # convert escape to (type, value) if character_class: # inside a character class, we'll look in the character # escapes dictionary first code = ESCAPES.get(escape) if code: return code code = CATEGORIES.get(escape) else: code = CATEGORIES.get(escape) if code: return code code ... | def _fixescape(escape, character_class=0): # convert escape to (type, value) if character_class: # inside a character class, we'll look in the character # escapes dictionary first code = ESCAPES.get(escape) if code: return code code = CATEGORIES.get(escape) else: code = CATEGORIES.get(escape) if code: return code code ... | 12,071 |
def _branch(subpattern, items): # form a branch operator from a set of items (FIXME: move this # optimization to the compiler module!) # check if all items share a common prefix while 1: prefix = None for item in items: if not item: break if prefix is None: prefix = item[0] elif item[0] != prefix: break else: # all s... | def _escape(source, escape, state): code = CATEGORIES.get(escape) if code: return code code = ESCAPES.get(escape) if code: return code try: if escape[1:2] == "x": while source.next in HEXDIGITS: escape = escape + source.get() escape = escape[2:] return LITERAL, chr(int(escape[-4:], 16) & 0xff) elif str(escape[1:2]) i... | 12,072 |
def _branch(subpattern, items): # form a branch operator from a set of items (FIXME: move this # optimization to the compiler module!) # check if all items share a common prefix while 1: prefix = None for item in items: if not item: break if prefix is None: prefix = item[0] elif item[0] != prefix: break else: # all s... | def _branch(subpattern, items): # form a branch operator from a set of items (FIXME: move this # optimization to the compiler module!) # check if all items share a common prefix while 1: prefix = None for item in items: if not item: break if prefix is None: prefix = item[0] elif item[0] != prefix: break else: # all s... | 12,073 |
def _branch(subpattern, items): # form a branch operator from a set of items (FIXME: move this # optimization to the compiler module!) # check if all items share a common prefix while 1: prefix = None for item in items: if not item: break if prefix is None: prefix = item[0] elif item[0] != prefix: break else: # all s... | def _branch(subpattern, items): # form a branch operator from a set of items (FIXME: move this # optimization to the compiler module!) # check if all items share a common prefix while 1: prefix = None for item in items: if not item: break if prefix is None: prefix = item[0] elif item[0] != prefix: break else: # all s... | 12,074 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(state) while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: subpattern.appe... | 12,075 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 12,076 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 12,077 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 12,078 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 12,079 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 12,080 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 12,081 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def_parse(source,pattern,flags=()):#parseregularexpressionpatternintoanoperatorlist.subpattern=SubPattern(pattern)this=Nonewhile1:ifstr(source.next)in("|",")"):break#endofsubpatternthis=source.get()ifthisisNone:break#endofpatternifthisandthis[0]notinSPECIAL_CHARS:subpattern.append((LITERAL,this))elifthis=="[":#characte... | 12,082 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 12,083 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 12,084 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 12,085 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 12,086 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 12,087 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 12,088 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 12,089 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 12,090 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 12,091 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 12,092 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def_parse(source,pattern,flags=()):#parseregularexpressionpatternintoanoperatorlist.subpattern=SubPattern(pattern)this=Nonewhile1:ifstr(source.next)in("|",")"):break#endofsubpatternthis=source.get()ifthisisNone:break#endofpatternifthisandthis[0]notinSPECIAL_CHARS:subpattern.append((LITERAL,this))elifthis=="[":#characte... | 12,093 |
def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | def _parse(source, pattern, flags=()): # parse regular expression pattern into an operator list. subpattern = SubPattern(pattern) this = None while 1: if str(source.next) in ("|", ")"): break # end of subpattern this = source.get() if this is None: break # end of pattern if this and this[0] not in SPECIAL_CHARS: ... | 12,094 |
def parse(source, flags=()): s = Tokenizer(source) g = Pattern() b = [] while 1: p = _parse(s, g, flags) tail = s.get() if tail == "|": b.append(p) elif tail == ")": raise SyntaxError, "unbalanced parenthesis" elif tail is None: if b: b.append(p) p = SubPattern(g) _branch(p, b) break else: raise SyntaxError, "bogus cha... | def parse(pattern, flags=0): source = Tokenizer(pattern) state = State() b = [] while 1: p = _parse(s, g, flags) tail = s.get() if tail == "|": b.append(p) elif tail == ")": raise SyntaxError, "unbalanced parenthesis" elif tail is None: if b: b.append(p) p = SubPattern(g) _branch(p, b) break else: raise SyntaxError, "... | 12,095 |
def parse(source, flags=()): s = Tokenizer(source) g = Pattern() b = [] while 1: p = _parse(s, g, flags) tail = s.get() if tail == "|": b.append(p) elif tail == ")": raise SyntaxError, "unbalanced parenthesis" elif tail is None: if b: b.append(p) p = SubPattern(g) _branch(p, b) break else: raise SyntaxError, "bogus cha... | def parse(source, flags=()): s = Tokenizer(source) g = Pattern() b = [] while 1: p = _parse(source, state, flags) tail = source.get() if tail == "|": b.append(p) elif tail == ")": raise SyntaxError, "unbalanced parenthesis" elif tail is None: if b: b.append(p) p = SubPattern(g) _branch(p, b) break else: raise SyntaxErr... | 12,096 |
def parse(source, flags=()): s = Tokenizer(source) g = Pattern() b = [] while 1: p = _parse(s, g, flags) tail = s.get() if tail == "|": b.append(p) elif tail == ")": raise SyntaxError, "unbalanced parenthesis" elif tail is None: if b: b.append(p) p = SubPattern(g) _branch(p, b) break else: raise SyntaxError, "bogus cha... | def parse(source, flags=()): s = Tokenizer(source) g = Pattern() b = [] while 1: p = _parse(s, g, flags) tail = s.get() if tail == "|": b.append(p) elif tail == ")": raise SyntaxError, "unbalanced parenthesis" elif tail is None: if b: b.append(p) p = _branch(state, b) break else: raise SyntaxError, "bogus characters at... | 12,097 |
def get_qualified_path(name): """ return a more qualified path to name""" import sys import os for dir in sys.path: fullname = os.path.join(dir, name) if os.path.exists(fullname): return fullname return name | def get_qualified_path(name): """ return a more qualified path to name""" import sys import os path = sys.path try: path = [os.path.dirname(__file__)] + path except NameError: pass for dir in path: fullname = os.path.join(dir, name) if os.path.exists(fullname): return fullname return name | 12,098 |
def flush(self): """Write any pending changes to disk.""" if not self._pending: return self._lookup() new_file = _create_temporary(self._path) try: new_toc = {} self._pre_mailbox_hook(new_file) for key in sorted(self._toc.keys()): start, stop = self._toc[key] self._file.seek(start) self._pre_message_hook(new_file) new_... | def flush(self): """Write any pending changes to disk.""" if not self._pending: return assert self._toc is not None self._file.seek(0, 2) cur_len = self._file.tell() if cur_len != self._file_length: raise ExternalClashError('Size of mailbox file changed ' '(expected %i, found %i)' % (self._file_length, cur_len))... | 12,099 |
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